Radant Technologies, Inc.

255 Hudson Road
Stow, MA 01775
http://www.radanttechnologies.com
120 Employees

SBIR Award Summary

Total Number of Awards 11
Total Value of Awards $2.35MM
First Award Date 12/30/93
Most Recent Award Date 07/16/13

Key Personnel

Last Name Name Awards Contact
Ziolkowski Dr. Fred Ziolkowski 2 Message
Ziolkowski Dr. Fredric Ziolkowski 5 Message
Maciel Dr. John Maciel 2
Fanger Daniel Fanger 2

11 Awards Won

Phase 2 SBIR

Agency: Air Force
Topic: AF121-042
Budget: 07/16/13 - 07/15/15

ABSTRACT: The sufficiency of the half-wave solid designs, thin skin A-sandwich designs, and C-sandwich designs fails at V/W band, where the wave length decreases to 0.15². Wall designs suitable with acceptable transmission and cross polarization have been fabricated as flat panel construction sample panels and have been evaluated for 0 and 60 ...

Phase 1 SBIR

Agency: Air Force
Topic: AF121-042
Budget: 05/11/12 - 02/11/13

ABSTRACT: In order to obtain increased bandwidth, airborne satellite communication systems are planned for V/W band. The sufficiency of the half-wave solid designs, thin skin A-sandwich designs, and C-sandwich designs fails at V/W band, where the wave length decreases to nearly 0.125². The object of the Phase I effort for a V/W band airborne r...

Phase 1 SBIR

Agency: Air Force
Topic: AF093-196
Budget: 06/07/10 - 03/07/11

Technical Abstract The physical properties of a polymer cause the response of their mechanical and electrical properties to lag an applied, reversed, or removed stimulus with a similar delay. This lagging or relaxation delay is measured by a time constant t that is inherently related to energy absorption for both models. The relaxation is ther...

Phase 1 SBIR

Agency: Air Force
Topic: AF06-056
Budget: 04/13/06 - 04/13/07

The fabrication and measurement of a sample flat panel is proposed to evaluate a novel design for a tri-band, airborne radome that requires high angle transmission because of its aerodynamic shape. This design implements matching in order to improve the multi-band, wide angle transmission. Although the concept of matching is well-developed as ...

Phase 1 SBIR

Agency: Air Force
Topic: AF01-086
Budget: 04/16/01 - 01/16/02

Airborne MILSTAR SATCOM Terminals require at least hemispherical coverage. In principle, the Dome Lens can expand the less than hemispherical coverage of a single electronically scanned array or of a limited mechanical scan antenna to a more than hemispherical coverage. This effort aims to evolve practical design concepts for a Dome Lens a...

Phase 1 SBIR

Agency: Office of the Secretary of Defense
Topic: OSD98-026
Budget: 12/14/98 - 06/13/99

The United States Special Operations Command has a need for a common radar system for its aviation fleet. Currently there are four Terrain Following/Terrain Avoidance (TF/TA) radars and one weather radar in the Special Operations Forces (SOF) inventory. Critical to achieving a common radar is developing a common antenna. To this end, the goal...

Phase 1 SBIR

Agency: Defense Advanced Research Projects Agency
Topic: SB962-069
Budget: 09/30/96 - 04/30/97

Phase 1 SBIR

Agency: Navy
Topic: N95-188
Budget: 12/04/95 - 06/04/96

Phase 2 SBIR

Agency: Navy
Topic: N94-119
Budget: 08/21/95 - 11/20/96

The Radant TM lens is a technique for implementing one- or two-dimensional electronic scanning at a lower cost than discrete element phased arrays. The Radant TM Lens configuration - parallel conducting plates with PIN switching diode beam scanning, thereby eliminating discrete components and connectors. Phase II of the proposed basic SBIR res...

Phase 1 SBIR

Agency: Navy
Topic: N94-119
Budget: 08/15/94 - 02/15/95

The Radant Lens (TM) is a technique for implementing one-or two-dimensional electronic scanning at a lower cost than discrete element phased arrays. The Radant Lens (TM) configuration - parallel conducting plates with PIN switching diode controlled phase shift circuits - interacts directly with a plane wave to produce beam scanning, thereby ele...

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