OUT of the FOG Research

Stuart Berkowitz Array
San Francisco, CA 94116
http://www.outofthefogresearch.com
7 Employees

SBIR Award Summary

Total Number of Awards 15
Total Value of Awards $9.03MM
First Award Date 08/09/05
Most Recent Award Date 05/24/16

Key Personnel

Last Name Name Awards Contact
Berkowitz Dr. Stuart Berkowitz 17 Message

15 Awards Won

Phase 2 SBIR

Agency: Navy
Topic: N08-083
Budget: 05/24/16 - 05/23/18

The goal of this subsequent Phase II project is to develop low-loss sharp-rejection tunable filters in the 1-20 GHz frequency range. We will first explore several candidate approaches. We will then develop a full breadboard demonstration at the end of Year 1. In Year 2, we will develop and deliver a prototype for laboratory by the Navy. In the O...

Phase 2 STTR

Institution: University of California, San Diego

Agency: Air Force
Topic: AF10-BT40
Budget: 01/15/13 - 01/14/15

ABSTRACT: In Phase II, we will fabricate a SQUID array antenna. We will develop cryopackaging and control electronics for these devices. We integrate the device onto a cryocooler and build a laboratory prototype. We will then have all of the building blocks to build a fieldable prototype in Phase III. BENEFIT: Military Application: Microwave Com...

Phase 1 STTR

Institution: University of California, Berkeley

Agency: Air Force
Topic: AF10-BT40
Budget: 11/15/11 - 08/15/12

ABSTRACT: In Phase I, we will analyze and design a physically small superconducting antenna for HF DF. We will develop a set of target antenna specifications. We will model and simulate a superconducting antenna for this application, including control electronics. We will complete an array design and device fabrication. We will measure noise pro...

Phase 1 SBIR

Agency: Navy
Topic: N101-075
Budget: 05/10/10 - 03/09/11

In Phase I, we will assess the technical issues and risks associated with developing a multi-ferroic phase shifter. We will develop target specifications. We will then fabricate multi-ferroic devices. We test these devices to determine the feasibility to meet the target specifications. We will then develop practical packaging for these devices. ...

Phase 2 SBIR

Agency: Navy
Topic: N08-097
Budget: 02/05/10 - 02/05/12

In this program, we will develop the technology that will allow the division of the 30-88 MHz frequency band into a minimum of 30 channels with a minimum of 30 dB channel isolation (band center to band center). We will build a 30-channel multiplexer using one of the two novel approaches developed in Phase I. We will miniaturize the internal CLIC...

Phase 2 SBIR

Agency: Navy
Topic: N08-083
Budget: 09/25/09 - 09/24/11

In this program, we will develop a concept for microsecond tuning 3 MHz BW HTS bandpass filters meeting the sharp rejection and insertion loss requirements of the application. We will define a full set of target specifications for the tunable bandpass filters that meet a current or future operational need. We will perform at least two design/fab...

Phase 2 SBIR

Agency: Navy
Topic: N07-149
Budget: 09/21/09 - 03/21/11

We propose to develop the technology to demonstrate a full-band Extended Frequency RFDS. In the first year, we will design a cryo-enabled Extended Frequency RFDS for the frequency band that will be the best combination of Navy need and technology achievability. This will be accomplished by extending the exploratory simulation work performed unde...

Phase 2 STTR

Institution: MIT Lincoln Labs

Agency: Navy
Topic: N08-T018
Budget: 09/10/09 - 03/09/11

In this program, we propose to develop the CRES technology to meet the EMI rejection, insertion loss, and size requirements of the application. The first focus is to development of wide-band power diverters (a key component). The second focus is to develop and effective algorithm to control the cancellation. The third focus is the development a ...

Phase 1 SBIR

Agency: Navy
Topic: N08-097
Budget: 07/16/08 - 04/16/09

In this program, we will assess the technical feasibility and the risks of three novel approaches that will allow the division of the 30-88 MHz frequency band into a minimum of 30 channels with a minimum of 30 dB channel isolation (band center to band center). For each approach, we will conduct computer modeling and demonstrate that this multipl...

Phase 1 STTR

Institution: Massachusetts Institute of Technology

Agency: Navy
Topic: N08-T018
Budget: 06/23/08 - 04/24/09

In this program, we will develop a concept for CRES to meet the EMI rejection and insertion loss requirements of the application. We will define a full set of specifications for the CRES technology that meets a current or future operational need. We will demonstrate through simulation a CRES architecture that can be used for removal of co-channe...

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