Microscale, Inc.
CAGE Code: 48AL7
NCAGE Code: 48AL7
Status: Active
Type: Manufacturer
Dun & Bradstreet (DUNS): 612920699
Summary
Microscale, Inc. is an Active Manufacturer with the Cage Code 48AL7 and is tracked by Dun & Bradstreet under DUNS Number 612920699..
Address
800 W Cummings Park Ste 3350
Woburn MA 01801-2736
United States
Points of Contact
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Frequently Asked Questions (FAQ) for CAGE 48AL7
- What is CAGE Code 48AL7?
- 48AL7 is the unique identifier used by NATO Organizations to reference the physical entity known as Microscale, Inc. located at 800 W Cummings Park Ste 3350, Woburn MA 01801-2736, United States.
- Who is CAGE Code 48AL7?
- 48AL7 refers to Microscale, Inc. located at 800 W Cummings Park Ste 3350, Woburn MA 01801-2736, United States.
- Where is CAGE Code 48AL7 Located?
- CAGE Code 48AL7 is located in Woburn, MA, USA.
Contracting History for CAGE 48AL7 Most Recent 25 Records
- 80NSSC18C0097
- This Sbir Phase Ii Project Aims To Develop Innovative Manufacturing Methods For Batch Fabrication Of Single Crystal Pmn-Pt Stack Actuator Deformable Mirrors (Dm) At Low Cost Of Up To One Order Of Magnitude Reduction To Those Offered By The State-Of-The-Art Manufacturing Techniques. The Methods, Being Applicable To Produce High-Performance Deformable Mirrors With A Large Variety Of Pixel Densities And Actuator Counts, Are Also Proposed To Seamlessly Integrate The Dm Manufacturing Process With A Novel Large-Scale Driver Asic, Hence An Enhancement Of The Proposed Batch Manufacturing Process By Reliably Packaging Dms With High Yield, Zero Failure Pixel, And With High Optical Qualities, And On Top Of These Offering The Demanded High-Resolution Mirror Surface Control. Low Payload, High Performance, Low Cost, And Low Power, Are The Four Keys That Can Lead A Dm To Successful Implementation Into Nasa's High-Performance Systems. For Lab Testing, Concept Inspiration, And Concept Validation, The Ao Communities Need High-Performance But Low-Cost Dms To Study Wide Variety Of Ao Concepts On A Tight Budget And In A Timely Fashion On The Other Hand, Once An Ao Concept Is Approved, A Space-Based Adaptive Optics System Will Additionally Demand Low Payload And Low Power Dissipation For Space-Based Deployment. The Proposed Dm Manufacturing And Asic Integration Aims To Develop Dms To Meet The Two Staged Needs Through One Joint Dm-Asic Development Program.
- 25 Jun 2020
- This Sbir Phase Ii Project Aims To Develop Innovative Manufacturing Methods For Batch Fabrication Of Single Crystal Pmn-Pt Stack Actuator Deformable Mirrors (Dm) At Low Cost Of Up To One Order Of Magnitude Reduction To Those Offered By The State-Of-The-Art Manufacturing Techniques. The Methods, Being Applicable To Produce High-Performance Deformable Mirrors With A Large Variety Of Pixel Densities And Actuator Counts, Are Also Proposed To Seamlessly Integrate The Dm Manufacturing Process With A Novel Large-Scale Driver Asic, Hence An Enhancement Of The Proposed Batch Manufacturing Process By Reliably Packaging Dms With High Yield, Zero Failure Pixel, And With High Optical Qualities, And On Top Of These Offering The Demanded High-Resolution Mirror Surface Control. Low Payload, High Performance, Low Cost, And Low Power, Are The Four Keys That Can Lead A Dm To Successful Implementation Into Nasa's High-Performance Systems. For Lab Testing, Concept Inspiration, And Concept Validation, The Ao Communities Need High-Performance But Low-Cost Dms To Study Wide Variety Of Ao Concepts On A Tight Budget And In A Timely Fashion On The Other Hand, Once An Ao Concept Is Approved, A Space-Based Adaptive Optics System Will Additionally Demand Low Payload And Low Power Dissipation For Space-Based Deployment. The Proposed Dm Manufacturing And Asic Integration Aims To Develop Dms To Meet The Two Staged Needs Through One Joint Dm-Asic Development Program.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,967.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0097
- This Sbir Phase Ii Project Aims To Develop Innovative Manufacturing Methods For Batch Fabrication Of Single Crystal Pmn-Pt Stack Actuator Deformable Mirrors (Dm) At Low Cost Of Up To One Order Of Magnitude Reduction To Those Offered By The State-Of-The-Art Manufacturing Techniques. The Methods, Being Applicable To Produce High-Performance Deformable Mirrors With A Large Variety Of Pixel Densities And Actuator Counts, Are Also Proposed To Seamlessly Integrate The Dm Manufacturing Process With A Novel Large-Scale Driver Asic, Hence An Enhancement Of The Proposed Batch Manufacturing Process By Reliably Packaging Dms With High Yield, Zero Failure Pixel, And With High Optical Qualities, And On Top Of These Offering The Demanded High-Resolution Mirror Surface Control. Low Payload, High Performance, Low Cost, And Low Power, Are The Four Keys That Can Lead A Dm To Successful Implementation Into Nasa's High-Performance Systems. For Lab Testing, Concept Inspiration, And Concept Validation, The Ao Communities Need High-Performance But Low-Cost Dms To Study Wide Variety Of Ao Concepts On A Tight Budget And In A Timely Fashion On The Other Hand, Once An Ao Concept Is Approved, A Space-Based Adaptive Optics System Will Additionally Demand Low Payload And Low Power Dissipation For Space-Based Deployment. The Proposed Dm Manufacturing And Asic Integration Aims To Develop Dms To Meet The Two Staged Needs Through One Joint Dm-Asic Development Program.
- 12 Aug 2020
- This Sbir Phase Ii Project Aims To Develop Innovative Manufacturing Methods For Batch Fabrication Of Single Crystal Pmn-Pt Stack Actuator Deformable Mirrors (Dm) At Low Cost Of Up To One Order Of Magnitude Reduction To Those Offered By The State-Of-The-Art Manufacturing Techniques. The Methods, Being Applicable To Produce High-Performance Deformable Mirrors With A Large Variety Of Pixel Densities And Actuator Counts, Are Also Proposed To Seamlessly Integrate The Dm Manufacturing Process With A Novel Large-Scale Driver Asic, Hence An Enhancement Of The Proposed Batch Manufacturing Process By Reliably Packaging Dms With High Yield, Zero Failure Pixel, And With High Optical Qualities, And On Top Of These Offering The Demanded High-Resolution Mirror Surface Control. Low Payload, High Performance, Low Cost, And Low Power, Are The Four Keys That Can Lead A Dm To Successful Implementation Into Nasa's High-Performance Systems. For Lab Testing, Concept Inspiration, And Concept Validation, The Ao Communities Need High-Performance But Low-Cost Dms To Study Wide Variety Of Ao Concepts On A Tight Budget And In A Timely Fashion On The Other Hand, Once An Ao Concept Is Approved, A Space-Based Adaptive Optics System Will Additionally Demand Low Payload And Low Power Dissipation For Space-Based Deployment. The Proposed Dm Manufacturing And Asic Integration Aims To Develop Dms To Meet The Two Staged Needs Through One Joint Dm-Asic Development Program.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,967.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC19C0339
- This Sbir Phase I Project Aims To Improve The Mirror Quality Of The Pzt Stack Actuator Dms. With Verified Dm Performance In Terms Of Key Performance Parameters Such As Stroke, Leakage Current, Speed, Influence Function As Well As The Validity
- 15 Aug 2019
- This Sbir Phase I Project Aims To Improve The Mirror Quality Of The Pzt Stack Actuator Dms. With Verified Dm Performance In Terms Of Key Performance Parameters Such As Stroke, Leakage Current, Speed, Influence Function As Well As The Validity
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $124,738.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0097
- This Sbir Phase Ii Project Aims To Develop Innovative Manufacturing Methods For Batch Fabrication Of Single Crystal Pmn-Pt Stack Actuator Deformable Mirrors (Dm) At Low Cost Of Up To One Order Of Magnitude Reduction To Those Offered By The State-Of-The-Art Manufacturing Techniques. The Methods, Being Applicable To Produce High-Performance Deformable Mirrors With A Large Variety Of Pixel Densities And Actuator Counts, Are Also Proposed To Seamlessly Integrate The Dm Manufacturing Process With A Novel Large-Scale Driver Asic, Hence An Enhancement Of The Proposed Batch Manufacturing Process By Reliably Packaging Dms With High Yield, Zero Failure Pixel, And With High Optical Qualities, And On Top Of These Offering The Demanded High-Resolution Mirror Surface Control. Low Payload, High Performance, Low Cost, And Low Power, Are The Four Keys That Can Lead A Dm To Successful Implementation Into Nasa's High-Performance Systems. For Lab Testing, Concept Inspiration, And Concept Validation, The Ao Communities Need High-Performance But Low-Cost Dms To Study Wide Variety Of Ao Concepts On A Tight Budget And In A Timely Fashion On The Other Hand, Once An Ao Concept Is Approved, A Space-Based Adaptive Optics System Will Additionally Demand Low Payload And Low Power Dissipation For Space-Based Deployment. The Proposed Dm Manufacturing And Asic Integration Aims To Develop Dms To Meet The Two Staged Needs Through One Joint Dm-Asic Development Program.
- 14 Apr 2020
- This Sbir Phase Ii Project Aims To Develop Innovative Manufacturing Methods For Batch Fabrication Of Single Crystal Pmn-Pt Stack Actuator Deformable Mirrors (Dm) At Low Cost Of Up To One Order Of Magnitude Reduction To Those Offered By The State-Of-The-Art Manufacturing Techniques. The Methods, Being Applicable To Produce High-Performance Deformable Mirrors With A Large Variety Of Pixel Densities And Actuator Counts, Are Also Proposed To Seamlessly Integrate The Dm Manufacturing Process With A Novel Large-Scale Driver Asic, Hence An Enhancement Of The Proposed Batch Manufacturing Process By Reliably Packaging Dms With High Yield, Zero Failure Pixel, And With High Optical Qualities, And On Top Of These Offering The Demanded High-Resolution Mirror Surface Control. Low Payload, High Performance, Low Cost, And Low Power, Are The Four Keys That Can Lead A Dm To Successful Implementation Into Nasa's High-Performance Systems. For Lab Testing, Concept Inspiration, And Concept Validation, The Ao Communities Need High-Performance But Low-Cost Dms To Study Wide Variety Of Ao Concepts On A Tight Budget And In A Timely Fashion On The Other Hand, Once An Ao Concept Is Approved, A Space-Based Adaptive Optics System Will Additionally Demand Low Payload And Low Power Dissipation For Space-Based Deployment. The Proposed Dm Manufacturing And Asic Integration Aims To Develop Dms To Meet The Two Staged Needs Through One Joint Dm-Asic Development Program.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,967.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0097
- This Sbir Phase Ii Project Aims To Develop Innovative Manufacturing Methods For Batch Fabrication Of Single Crystal Pmn-Pt Stack Actuator Deformable Mirrors (Dm) At Low Cost Of Up To One Order Of Magnitude Reduction To Those Offered By The State-Of-The-Art Manufacturing Techniques. The Methods, Being Applicable To Produce High-Performance Deformable Mirrors With A Large Variety Of Pixel Densities And Actuator Counts, Are Also Proposed To Seamlessly Integrate The Dm Manufacturing Process With A Novel Large-Scale Driver Asic, Hence An Enhancement Of The Proposed Batch Manufacturing Process By Reliably Packaging Dms With High Yield, Zero Failure Pixel, And With High Optical Qualities, And On Top Of These Offering The Demanded High-Resolution Mirror Surface Control. Low Payload, High Performance, Low Cost, And Low Power, Are The Four Keys That Can Lead A Dm To Successful Implementation Into Nasa's High-Performance Systems. For Lab Testing, Concept Inspiration, And Concept Validation, The Ao Communities Need High-Performance But Low-Cost Dms To Study Wide Variety Of Ao Concepts On A Tight Budget And In A Timely Fashion; On The Other Hand, Once An Ao Concept Is Approved, A Space-Based Adaptive Optics System Will Additionally Demand Low Payload And Low Power Dissipation For Space-Based Deployment. The Proposed Dm Manufacturing And Asic Integration Aims To Develop Dms To Meet The Two Staged Needs Through One Joint Dm-Asic Development Program.
- 18 Apr 2018
- This Sbir Phase Ii Project Aims To Develop Innovative Manufacturing Methods For Batch Fabrication Of Single Crystal Pmn-Pt Stack Actuator Deformable Mirrors (Dm) At Low Cost Of Up To One Order Of Magnitude Reduction To Those Offered By The State-Of-The-Art Manufacturing Techniques. The Methods, Being Applicable To Produce High-Performance Deformable Mirrors With A Large Variety Of Pixel Densities And Actuator Counts, Are Also Proposed To Seamlessly Integrate The Dm Manufacturing Process With A Novel Large-Scale Driver Asic, Hence An Enhancement Of The Proposed Batch Manufacturing Process By Reliably Packaging Dms With High Yield, Zero Failure Pixel, And With High Optical Qualities, And On Top Of These Offering The Demanded High-Resolution Mirror Surface Control. Low Payload, High Performance, Low Cost, And Low Power, Are The Four Keys That Can Lead A Dm To Successful Implementation Into Nasa's High-Performance Systems. For Lab Testing, Concept Inspiration, And Concept Validation, The Ao Communities Need High-Performance But Low-Cost Dms To Study Wide Variety Of Ao Concepts On A Tight Budget And In A Timely Fashion; On The Other Hand, Once An Ao Concept Is Approved, A Space-Based Adaptive Optics System Will Additionally Demand Low Payload And Low Power Dissipation For Space-Based Deployment. The Proposed Dm Manufacturing And Asic Integration Aims To Develop Dms To Meet The Two Staged Needs Through One Joint Dm-Asic Development Program.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,967.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC17C0076
- This Sbir/Sttr Civilian Commercialization Readiness Pilot Program (Ccrpp) Project Aims To Continue Development Of The Phase Ii Driver Asic Technology. A Number Of Constraints Have Been Imposed On Key Parameters Of The Phase Ii Driver Asic, And These Specifications Are Crucial For A Driver Asic To Meet The Needs Of The Targeted Space Applications. The Phase Ii Effort Has Elevated The Driver Asic Technology To Trl 4 By Characterizing The Asic Performance On A Low Fidelity Breadboard. Through This Ccrpp Effort, We Propose Or Address The Integration And Scaling Issue Of The Driver Asic In Order To Create A Medium Fidelity Functional Unit For Dm Integration. A Primary Customer That Is To Receive The New Capability As A Result Of This Ccrpp Project Is An Nasa Apra (Astrophysics Research And Analysis) Project Aiming To Integrate The Driver Asic With Dms. A Second Customer That This Ccrpp Project Expects To Serve Is A Pending Nasa Project With A Goal To Carry On Environmental Testing And Performance Optimization Of The Driver Asic In Order To Make It Suitable For Space-Based Deployment Ncluding Being Able To Withstand The Extreme Radiation And Temperature Levels Of The Space Environment. When Fully Realized, The Driver Asic Is Ideally Suited For Integration To Dms On Nasa S Space-Based Missions For Exoplanets Exploration. The Asic Have Low Mass, Volume And Power, All Things That Offer Substantial Advantages To A Space Mission In Comparison With The Thousands Of Wires That Connect The Modern Dms. In Addition, Only A Few Wires Will Connect It To The Control Computer Greatly Simplifying Integration, Reducing Costs And Increasing Reliability. In Future Developments, It Can Be Applied To Other Different Dm Formats While Improving Reliability. Larger Array Format Up To 128X128 Driver Asics Are Necessary For Future Integration With Exoplanet Exploration Program. This Ccrp Effort Will Aid To Fill The Technology Gaps Listed In The Exoplanet Exploration Program Technology Plan 2017.
- 3 Jun 2018
- This Sbir/Sttr Civilian Commercialization Readiness Pilot Program (Ccrpp) Project Aims To Continue Development Of The Phase Ii Driver Asic Technology. A Number Of Constraints Have Been Imposed On Key Parameters Of The Phase Ii Driver Asic, And These Specifications Are Crucial For A Driver Asic To Meet The Needs Of The Targeted Space Applications. The Phase Ii Effort Has Elevated The Driver Asic Technology To Trl 4 By Characterizing The Asic Performance On A Low Fidelity Breadboard. Through This Ccrpp Effort, We Propose Or Address The Integration And Scaling Issue Of The Driver Asic In Order To Create A Medium Fidelity Functional Unit For Dm Integration. A Primary Customer That Is To Receive The New Capability As A Result Of This Ccrpp Project Is An Nasa Apra (Astrophysics Research And Analysis) Project Aiming To Integrate The Driver Asic With Dms. A Second Customer That This Ccrpp Project Expects To Serve Is A Pending Nasa Project With A Goal To Carry On Environmental Testing And Performance Optimization Of The Driver Asic In Order To Make It Suitable For Space-Based Deployment Ncluding Being Able To Withstand The Extreme Radiation And Temperature Levels Of The Space Environment. When Fully Realized, The Driver Asic Is Ideally Suited For Integration To Dms On Nasa S Space-Based Missions For Exoplanets Exploration. The Asic Have Low Mass, Volume And Power, All Things That Offer Substantial Advantages To A Space Mission In Comparison With The Thousands Of Wires That Connect The Modern Dms. In Addition, Only A Few Wires Will Connect It To The Control Computer Greatly Simplifying Integration, Reducing Costs And Increasing Reliability. In Future Developments, It Can Be Applied To Other Different Dm Formats While Improving Reliability. Larger Array Format Up To 128X128 Driver Asics Are Necessary For Future Integration With Exoplanet Exploration Program. This Ccrp Effort Will Aid To Fill The Technology Gaps Listed In The Exoplanet Exploration Program Technology Plan 2017.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $219,931.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0290
- This Sbir Phase I Project Aims To Continue The Manufacturing Optimization Of The Mirror Quality For Both Of Our Pzt Stack Actuator Dms And Our Next-Generation Single-Crystal Pmn-Pt Stack Actuator Dms.
- 12 May 2021
- This Sbir Phase I Project Aims To Continue The Manufacturing Optimization Of The Mirror Quality For Both Of Our Pzt Stack Actuator Dms And Our Next-Generation Single-Crystal Pmn-Pt Stack Actuator Dms.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $124,798.00
- National Aeronautics And Space Administration (Nasa)