Custom Mmic Design Services, Inc.
Div Qorvo Texas, Llc. Dba Qorvo Us,
Inc.
CAGE Code: 4EC82
NCAGE Code: 4EC82
Status: Active
Type: Commercial Supplier
Dun & Bradstreet (DUNS): 625207472
Summary
Custom Mmic Design Services, Inc., Div Qorvo Texas, Llc. Dba Qorvo Us,, Inc. is an Active Commercial Supplier with the Cage Code 4EC82 and is tracked by Dun & Bradstreet under DUNS Number 625207472..
Address
300 Apollo Dr
Chelmsford MA 01824-3629
United States
Points of Contact
- Telephone:
- 9729948656
- Fax:
- 9784674294
-
http://www.custommmic.com/
Related Information
People who viewed this 'CAGE Code' also viewed...
Light Contol Systems Inc High Tech Machinists, Inc. Alpha Data Associates Inc Creative Exchange Inc Ceracom, Inc. Emanouil Inc Cambridge Design Group Inc. Watermark Environmental Inc Chelmsford Mfg Corp Music Elements Sanborn Sewer Service Inc Brooks Automation, Inc. Auriga Measurement Systems, Llc Rose, Gary S & Assoc Genesistec Inc Oryza Laboratories, Inc. Walsh Engineering Services, Inc. Netswork Group Inc Pickering Interfaces, Inc Lockheed Martin Corporation
Frequently Asked Questions (FAQ) for CAGE 4EC82
- What is CAGE Code 4EC82?
- 4EC82 is the unique identifier used by NATO Organizations to reference the physical entity known as Custom Mmic Design Services, Inc. Div Qorvo Texas, Llc. Dba Qorvo Us, Inc. located at 300 Apollo Dr, Chelmsford MA 01824-3629, United States.
- Who is CAGE Code 4EC82?
- 4EC82 refers to Custom Mmic Design Services, Inc. Div Qorvo Texas, Llc. Dba Qorvo Us, Inc. located at 300 Apollo Dr, Chelmsford MA 01824-3629, United States.
- Where is CAGE Code 4EC82 Located?
- CAGE Code 4EC82 is located in Chelmsford, MA, USA.
- How Many NSNs Does CAGE Code 4EC82 Supply?
- CAGE Code 4EC82 has been assigned as an approved source for 1 NSNs (National Stock Numbers and NATO Stock Numbers).
Contracting History for CAGE 4EC82 Most Recent 25 Records
- FA865019C1020
- Dula Ka/Q-Band Low Noise Amplifiers
- 18 Dec 2018
- Dula Ka/Q-Band Low Noise Amplifiers
- Fa8650 Usaf Afmc Afrl Pzl Afrl/Pzl
- Department Of Defense (Dod)
- $749,890.00
- Department Of Defense (Dod)
- FA865019C1020
- Dual Ka/Q-Band Low Noise Amplifiers
- 12 Oct 2021
- Dual Ka/Q-Band Low Noise Amplifiers
- Fa8650 Usaf Afmc Afrl Pzl Afrl/Pzl
- Department Of Defense (Dod)
- $749,890.00
- Department Of Defense (Dod)
- FA865019C1020
- Dual Ka/Q-Band Low Noise Amplifiers
- 16 Jan 2019
- Dual Ka/Q-Band Low Noise Amplifiers
- Fa8650 Usaf Afmc Afrl/Rqk
- Department Of Defense (Dod)
- $749,890.00
- Department Of Defense (Dod)
- 80NSSC18C0064
- Nasa Is Seeking Innovative Advanced Rf Platform Technologies At The Physical Level, Specifically Ka-Band High Efficiency High Linearity 10 To 20 Watt Solid State Power Amplifiers (Sspas), To Meet The Needs Of Future Space Missions For Communications And Sensor Applications. Space Missions Require Small Size, Weight, And Power (Swap) Among The Hardware Components. As A Result, Monolithic Microwave Integrated Circuits (Mmics) Are Well Suited To Fill This Need. In Phase I Of This Sbir, Custom Mmic Design Services, Inc. (Custom Mmic) Analyzed A Number Of Commercially Available Gallium Nitride (Gan) Mmic Process Technologies From Domestic Foundries Based In The United States, And Selected The Optimum Process For Linear Power Amplifiers (Pas) - The 0.2 Um Gan Process As Offered By Northrop Grumman Space And Technology (Ngst). Custom Mmic S Use Of Novel Smalland Large-Signal Linear Power Amplifier (Pa) Circuit Design Techniques Led To Circuit Simulations Exhibiting A Large Signal Gain Greater Than 22 Db From 31.7 To 32.3 Ghz, A Linear Output Power Of 13 W, Input And Output Return Losses Of Better Than -20 Db, A Pae Of 41% Pae, And An Error Vector Magnitude (Evm) Of 4.5% For 8Psk 500 Mhz Modulation. In Addition, Custom Mmic S Use Of The Balanced Amplifier Topology Allowed The Simultaneous Independent Optimization Of Input/Output Return Losses And Internal Pa Impedances For Linearity And Pae. As A Result, Custom Mmic Has Produced A Design That Represents A New Industry State-Of-The-Art Benchmark For Linear Ka-Band Gan Mmic Pas. In Phase Ii, We Will Develop Not Only The Mmic Hardware That Represents This Design For Jpl At Ka-Band (31.8 - 32.3 Ghz) But Also A Similar Linear Pa For Gsfc At K-Band (25.5 - 27 Ghz) And A Saturated Radar Pa For Jpl At 35 Ghz.
- 22 May 2018
- Nasa Is Seeking Innovative Advanced Rf Platform Technologies At The Physical Level, Specifically Ka-Band High Efficiency High Linearity 10 To 20 Watt Solid State Power Amplifiers (Sspas), To Meet The Needs Of Future Space Missions For Communications And Sensor Applications. Space Missions Require Small Size, Weight, And Power (Swap) Among The Hardware Components. As A Result, Monolithic Microwave Integrated Circuits (Mmics) Are Well Suited To Fill This Need. In Phase I Of This Sbir, Custom Mmic Design Services, Inc. (Custom Mmic) Analyzed A Number Of Commercially Available Gallium Nitride (Gan) Mmic Process Technologies From Domestic Foundries Based In The United States, And Selected The Optimum Process For Linear Power Amplifiers (Pas) - The 0.2 Um Gan Process As Offered By Northrop Grumman Space And Technology (Ngst). Custom Mmic S Use Of Novel Smalland Large-Signal Linear Power Amplifier (Pa) Circuit Design Techniques Led To Circuit Simulations Exhibiting A Large Signal Gain Greater Than 22 Db From 31.7 To 32.3 Ghz, A Linear Output Power Of 13 W, Input And Output Return Losses Of Better Than -20 Db, A Pae Of 41% Pae, And An Error Vector Magnitude (Evm) Of 4.5% For 8Psk 500 Mhz Modulation. In Addition, Custom Mmic S Use Of The Balanced Amplifier Topology Allowed The Simultaneous Independent Optimization Of Input/Output Return Losses And Internal Pa Impedances For Linearity And Pae. As A Result, Custom Mmic Has Produced A Design That Represents A New Industry State-Of-The-Art Benchmark For Linear Ka-Band Gan Mmic Pas. In Phase Ii, We Will Develop Not Only The Mmic Hardware That Represents This Design For Jpl At Ka-Band (31.8 - 32.3 Ghz) But Also A Similar Linear Pa For Gsfc At K-Band (25.5 - 27 Ghz) And A Saturated Radar Pa For Jpl At 35 Ghz.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,885.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0064
- Gan Mmic Ka-Band Power Amplifier
- 24 Jan 2022
- Gan Mmic Ka-Band Power Amplifier
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $702,131.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0064
- Eo14042 Nasa Is Seeking Innovative Advanced Rf Platform Technologies At The Physical Level, Specifically Ka-Band High Efficiency High Linearity 10 To 20 Watt Solid State Power Amplifiers (Sspas), To Meet The Needs Of Future Space Missions For Communications And Sensor Applications. Space Missions Require Small Size, Weight, And Power (Swap) Among The Hardware Components. As A Result, Monolithic Microwave Integrated Circuits (Mmics) Are Well Suited To Fill This Need. In Phase I Of This Sbir, Custom Mmic Design Services, Inc. (Custom Mmic) Analyzed A Number Of Commercially Available Gallium Nitride (Gan) Mmic Process Technologies From Domestic Foundries Based In The United States, And Selected The Optimum Process For Linear Power Amplifiers (Pas) - The 0.2 Um Gan Process As Offered By Northrop Grumman Space And Technology (Ngst). Custom Mmic S Use Of Novel Smalland Large-Signal Linear Power Amplifier (Pa) Circuit Design Techniques Led To Circuit Simulations Exhibiting A Large Signal Gain Greater Than 22 Db From 31.7 To 32.3 Ghz, A Linear Output Power Of 13 W, Input And Output Return Losses Of Better Than -20 Db, A Pae Of 41% Pae, And An Error Vector Magnitude (Evm) Of 4.5% For 8Psk 500 Mhz Modulation. In Addition, Custom Mmic S Use Of The Balanced Amplifier Topology Allowed The Simultaneous Independent Optimization Of Input/Output Return Losses And Internal Pa Impedances For Linearity And Pae. As A Result, Custom Mmic Has Produced A Design That Represents A New Industry State-Of-The-Art Benchmark For Linear Ka-Band Gan Mmic Pas. In Phase Ii, We Will Develop Not Only The Mmic Hardware That Represents This Design For Jpl At Ka-Band (31.8 - 32.3 Ghz) But Also A Similar Linear Pa For Gsfc At K-Band (25.5 - 27 Ghz) And A Saturated Radar Pa For Jpl At 35 Ghz.
- 21 Dec 2021
- Eo14042 Nasa Is Seeking Innovative Advanced Rf Platform Technologies At The Physical Level, Specifically Ka-Band High Efficiency High Linearity 10 To 20 Watt Solid State Power Amplifiers (Sspas), To Meet The Needs Of Future Space Missions For Communications And Sensor Applications. Space Missions Require Small Size, Weight, And Power (Swap) Among The Hardware Components. As A Result, Monolithic Microwave Integrated Circuits (Mmics) Are Well Suited To Fill This Need. In Phase I Of This Sbir, Custom Mmic Design Services, Inc. (Custom Mmic) Analyzed A Number Of Commercially Available Gallium Nitride (Gan) Mmic Process Technologies From Domestic Foundries Based In The United States, And Selected The Optimum Process For Linear Power Amplifiers (Pas) - The 0.2 Um Gan Process As Offered By Northrop Grumman Space And Technology (Ngst). Custom Mmic S Use Of Novel Smalland Large-Signal Linear Power Amplifier (Pa) Circuit Design Techniques Led To Circuit Simulations Exhibiting A Large Signal Gain Greater Than 22 Db From 31.7 To 32.3 Ghz, A Linear Output Power Of 13 W, Input And Output Return Losses Of Better Than -20 Db, A Pae Of 41% Pae, And An Error Vector Magnitude (Evm) Of 4.5% For 8Psk 500 Mhz Modulation. In Addition, Custom Mmic S Use Of The Balanced Amplifier Topology Allowed The Simultaneous Independent Optimization Of Input/Output Return Losses And Internal Pa Impedances For Linearity And Pae. As A Result, Custom Mmic Has Produced A Design That Represents A New Industry State-Of-The-Art Benchmark For Linear Ka-Band Gan Mmic Pas. In Phase Ii, We Will Develop Not Only The Mmic Hardware That Represents This Design For Jpl At Ka-Band (31.8 - 32.3 Ghz) But Also A Similar Linear Pa For Gsfc At K-Band (25.5 - 27 Ghz) And A Saturated Radar Pa For Jpl At 35 Ghz.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,885.00
- National Aeronautics And Space Administration (Nasa)
- FA865017P1099
- Igf::Ot::Igf Duel Ka/Q-Band Low Noise Amplifiers
- 2 Aug 2017
- Igf::Ot::Igf Duel Ka/Q-Band Low Noise Amplifiers
- Fa8650 Usaf Afmc Afrl/Rqk
- Department Of Defense (Dod)
- $149,473.00
- Department Of Defense (Dod)
- 80NSSC18C0064
- Eo14042 Nasa Is Seeking Innovative Advanced Rf Platform Technologies At The Physical Level, Specifically Ka-Band High Efficiency High Linearity 10 To 20 Watt Solid State Power Amplifiers (Sspas), To Meet The Needs Of Future Space Missions For Communications And Sensor Applications. Space Missions Require Small Size, Weight, And Power (Swap) Among The Hardware Components. As A Result, Monolithic Microwave Integrated Circuits (Mmics) Are Well Suited To Fill This Need. In Phase I Of This Sbir, Custom Mmic Design Services, Inc. (Custom Mmic) Analyzed A Number Of Commercially Available Gallium Nitride (Gan) Mmic Process Technologies From Domestic Foundries Based In The United States, And Selected The Optimum Process For Linear Power Amplifiers (Pas) - The 0.2 Um Gan Process As Offered By Northrop Grumman Space And Technology (Ngst). Custom Mmic S Use Of Novel Smalland Large-Signal Linear Power Amplifier (Pa) Circuit Design Techniques Led To Circuit Simulations Exhibiting A Large Signal Gain Greater Than 22 Db From 31.7 To 32.3 Ghz, A Linear Output Power Of 13 W, Input And Output Return Losses Of Better Than -20 Db, A Pae Of 41% Pae, And An Error Vector Magnitude (Evm) Of 4.5% For 8Psk 500 Mhz Modulation. In Addition, Custom Mmic S Use Of The Balanced Amplifier Topology Allowed The Simultaneous Independent Optimization Of Input/Output Return Losses And Internal Pa Impedances For Linearity And Pae. As A Result, Custom Mmic Has Produced A Design That Represents A New Industry State-Of-The-Art Benchmark For Linear Ka-Band Gan Mmic Pas. In Phase Ii, We Will Develop Not Only The Mmic Hardware That Represents This Design For Jpl At Ka-Band (31.8 - 32.3 Ghz) But Also A Similar Linear Pa For Gsfc At K-Band (25.5 - 27 Ghz) And A Saturated Radar Pa For Jpl At 35 Ghz.
- 26 Apr 2022
- Eo14042 Nasa Is Seeking Innovative Advanced Rf Platform Technologies At The Physical Level, Specifically Ka-Band High Efficiency High Linearity 10 To 20 Watt Solid State Power Amplifiers (Sspas), To Meet The Needs Of Future Space Missions For Communications And Sensor Applications. Space Missions Require Small Size, Weight, And Power (Swap) Among The Hardware Components. As A Result, Monolithic Microwave Integrated Circuits (Mmics) Are Well Suited To Fill This Need. In Phase I Of This Sbir, Custom Mmic Design Services, Inc. (Custom Mmic) Analyzed A Number Of Commercially Available Gallium Nitride (Gan) Mmic Process Technologies From Domestic Foundries Based In The United States, And Selected The Optimum Process For Linear Power Amplifiers (Pas) - The 0.2 Um Gan Process As Offered By Northrop Grumman Space And Technology (Ngst). Custom Mmic S Use Of Novel Smalland Large-Signal Linear Power Amplifier (Pa) Circuit Design Techniques Led To Circuit Simulations Exhibiting A Large Signal Gain Greater Than 22 Db From 31.7 To 32.3 Ghz, A Linear Output Power Of 13 W, Input And Output Return Losses Of Better Than -20 Db, A Pae Of 41% Pae, And An Error Vector Magnitude (Evm) Of 4.5% For 8Psk 500 Mhz Modulation. In Addition, Custom Mmic S Use Of The Balanced Amplifier Topology Allowed The Simultaneous Independent Optimization Of Input/Output Return Losses And Internal Pa Impedances For Linearity And Pae. As A Result, Custom Mmic Has Produced A Design That Represents A New Industry State-Of-The-Art Benchmark For Linear Ka-Band Gan Mmic Pas. In Phase Ii, We Will Develop Not Only The Mmic Hardware That Represents This Design For Jpl At Ka-Band (31.8 - 32.3 Ghz) But Also A Similar Linear Pa For Gsfc At K-Band (25.5 - 27 Ghz) And A Saturated Radar Pa For Jpl At 35 Ghz.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $702,131.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0064
- Eo14042 Nasa Is Seeking Innovative Advanced Rf Platform Technologies At The Physical Level, Specifically Ka-Band High Efficiency High Linearity 10 To 20 Watt Solid State Power Amplifiers (Sspas), To Meet The Needs Of Future Space Missions For Communications And Sensor Applications. Space Missions Require Small Size, Weight, And Power (Swap) Among The Hardware Components. As A Result, Monolithic Microwave Integrated Circuits (Mmics) Are Well Suited To Fill This Need. In Phase I Of This Sbir, Custom Mmic Design Services, Inc. (Custom Mmic) Analyzed A Number Of Commercially Available Gallium Nitride (Gan) Mmic Process Technologies From Domestic Foundries Based In The United States, And Selected The Optimum Process For Linear Power Amplifiers (Pas) - The 0.2 Um Gan Process As Offered By Northrop Grumman Space And Technology (Ngst). Custom Mmic S Use Of Novel Smalland Large-Signal Linear Power Amplifier (Pa) Circuit Design Techniques Led To Circuit Simulations Exhibiting A Large Signal Gain Greater Than 22 Db From 31.7 To 32.3 Ghz, A Linear Output Power Of 13 W, Input And Output Return Losses Of Better Than -20 Db, A Pae Of 41% Pae, And An Error Vector Magnitude (Evm) Of 4.5% For 8Psk 500 Mhz Modulation. In Addition, Custom Mmic S Use Of The Balanced Amplifier Topology Allowed The Simultaneous Independent Optimization Of Input/Output Return Losses And Internal Pa Impedances For Linearity And Pae. As A Result, Custom Mmic Has Produced A Design That Represents A New Industry State-Of-The-Art Benchmark For Linear Ka-Band Gan Mmic Pas. In Phase Ii, We Will Develop Not Only The Mmic Hardware That Represents This Design For Jpl At Ka-Band (31.8 - 32.3 Ghz) But Also A Similar Linear Pa For Gsfc At K-Band (25.5 - 27 Ghz) And A Saturated Radar Pa For Jpl At 35 Ghz.
- 4 Mar 2022
- Eo14042 Nasa Is Seeking Innovative Advanced Rf Platform Technologies At The Physical Level, Specifically Ka-Band High Efficiency High Linearity 10 To 20 Watt Solid State Power Amplifiers (Sspas), To Meet The Needs Of Future Space Missions For Communications And Sensor Applications. Space Missions Require Small Size, Weight, And Power (Swap) Among The Hardware Components. As A Result, Monolithic Microwave Integrated Circuits (Mmics) Are Well Suited To Fill This Need. In Phase I Of This Sbir, Custom Mmic Design Services, Inc. (Custom Mmic) Analyzed A Number Of Commercially Available Gallium Nitride (Gan) Mmic Process Technologies From Domestic Foundries Based In The United States, And Selected The Optimum Process For Linear Power Amplifiers (Pas) - The 0.2 Um Gan Process As Offered By Northrop Grumman Space And Technology (Ngst). Custom Mmic S Use Of Novel Smalland Large-Signal Linear Power Amplifier (Pa) Circuit Design Techniques Led To Circuit Simulations Exhibiting A Large Signal Gain Greater Than 22 Db From 31.7 To 32.3 Ghz, A Linear Output Power Of 13 W, Input And Output Return Losses Of Better Than -20 Db, A Pae Of 41% Pae, And An Error Vector Magnitude (Evm) Of 4.5% For 8Psk 500 Mhz Modulation. In Addition, Custom Mmic S Use Of The Balanced Amplifier Topology Allowed The Simultaneous Independent Optimization Of Input/Output Return Losses And Internal Pa Impedances For Linearity And Pae. As A Result, Custom Mmic Has Produced A Design That Represents A New Industry State-Of-The-Art Benchmark For Linear Ka-Band Gan Mmic Pas. In Phase Ii, We Will Develop Not Only The Mmic Hardware That Represents This Design For Jpl At Ka-Band (31.8 - 32.3 Ghz) But Also A Similar Linear Pa For Gsfc At K-Band (25.5 - 27 Ghz) And A Saturated Radar Pa For Jpl At 35 Ghz.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $702,131.00
- National Aeronautics And Space Administration (Nasa)