Phase IV Systems, Inc.

3405 Triana Boulevard
Huntsville, AL 35805
http://www.phaseiv.com
85 Employees

SBIR Award Summary

Total Number of Awards 7
Total Value of Awards $1.23MM
First Award Date 12/09/91
Most Recent Award Date 08/16/06

Key Personnel

Last Name Name Awards Contact
Pressnel Mr. Michael Pressnel 1 Message
Fletcher Dr. Robert H. Fletcher 2 Message
Presnell Mr. Michael Presnell 1 Message
Fahey Dr. Michael D. Fahey 1
Lawrence Dr. Daniel Lawrence 2 Message
Pope Mr. Mike Pope 2 Message

7 Awards Won

Phase 1 STTR

Institution: Auburn University

Agency: Missile Defense Agency
Topic: MDA06-T012
Budget: 08/16/06 - 02/16/07

Under this STTR effort, the Phase IV Systems/Auburn University team will leverage Auburn University s knowledge in applied genetic algorithm optimization algorithms for RF design problems to develop an X-band radiating element with improved mutual coupling and bandwidth compared with conventional printed circuit radiating elements. The design c...

Phase 2 SBIR

Agency: Army
Topic: A04-155
Budget: 05/24/06 - 06/30/08

The primary objectives of this SBIR effort will be to increase the bandwidth capabilities of the Arbitrary Waveform Generator (AWG) designed during the Phase I effort from 500 MHz to 1 GHz and to develop a high speed memory interface to allow the waveforms to be loaded real-time. The bandwidth of the Phase I AWG will be doubled by developing a ...

Phase 1 SBIR

Agency: Army
Topic: A04-155
Budget: 01/31/05 - 07/31/05

During Phase I and the Phase I Option of this SBIR, Phase IV System will build a two-channel prototype arbitrary waveform generator (AWG) capable of playing scripted waveforms with an operational bandwidth design goal of 500 MHz. The AWG that will be delivered at the end of the Phase I Option will be a single digital board that will reside in a...

Phase 1 SBIR

Agency: Missile Defense Agency
Topic: MDA04-040
Budget: 04/14/04 - 10/14/04

Radar pulse compression waveforms can be processed with the waveform's "matched filter" to provide the optimum detection performance of a target in the presence of white Gaussian noise. Unfortunately, these optimally processed waveforms also exhibit undesired spurious responses called time (or range) sidelobes, which can significantly degrade th...

Phase 1 STTR

Institution: Auburn University

Agency: Missile Defense Agency
Topic: MDA03T-006
Budget: 09/29/03 - 03/29/04

In this proposal, a novel ultra-tight GPS/INS coupling concept is introduced using adaptive higher-order GPS carrier tracking loops, providing increased jamming immunity and robust tracking during high vehicle dynamics. The proposed adaptive ultra-tight concept has two salient features: (1) INS enabling and control of the higher-order loop fil...

Phase 1 SBIR

Agency: Missile Defense Agency
Topic: BMDO02-003
Budget: 05/02/02 - 11/02/02

Modern military radar systems must be capable of operating effectively in the presence of severe jamming or electronic countermeasures (ECM). Use of low sidelobe antennas, especially for receive patterns, is the foremost method of reducing the effects of jamming; however, low sidelobe antennas alone are usually not sufficient. Several other te...

Phase 1 SBIR

Agency: Army
Topic: A91-235
Budget: 12/09/91 - 06/08/92