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GaN High-Power Low-Loss C3-varactor RF switch MMIC
Navy SBIR FY2014.1
| Sol No.: |
Navy SBIR FY2014.1 |
| Topic No.: |
N141-040 |
| Topic Title: |
GaN High-Power Low-Loss C3-varactor RF switch MMIC |
| Proposal No.: |
N141-040-0891 |
| Firm: |
Sensor Electronic Technology, Inc.
1195 Atlas Road
Columbia, South Carolina 29209 |
| Contact: |
Mikhail Gaevski |
| Phone: |
(803) 647-9757 |
| Web Site: |
www.s-et.com |
| Abstract: |
WWe propose to develop novel low-loss high-power fully planar GaN C3 (Capacitively-Coupled-Contact) varactor RF switch MMIC with switching time well below 300 ns. The use of GaN material system offers radical device performance improvement over MEMS, pin-diode and other switch types due to an extremely high electron sheet density, high electron channel mobility at AlInGaN/GaN heterointerface, record high breakdown field and operating temperature. The C3 varactors are gate alignment free devices without high-temperature annealed ohmic contacts. These features allow C3 varactors, while maintaining all the key advantages of GaN transistor technology, to achieving even lower loss, higher switching power and better technological yield.
Highly controllable SET Inc. patented MEMOCVDr growth in conjunction with patented insulated-gate fabrication processes will ensure high MMIC yield exceeding 80%. The use of technologies and manufacturing capabilities readily available at the proposer's facilities guaranties rapid commercialization and system insertion of these novel devices leading to transformative changes in the modern RF systems such as electronically scanned radars, communication systems etc. employed in NAVY and the other DoD branches as well as in a broad range of commercial applications.
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| Benefits: |
Low-loss high-power fully planar GaN C3 (Capacitively-Coupled-Contact) varactor RF switch MMICs provide inexpensive, effortlessly scalable and reliable platform for modern RF systems. Its Implementation will result in transformative changes for such applications as electronically scanned radars, communication systems etc. employed in NAVY and the other DoD branches as well as in a broad range of commercial applications. The use of technologies and manufacturing capabilities readily available at the proposer's facilities guaranties rapid commercialization and system insertion of these novel devices. |
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