Microwave Technologies, Inc.

5799L BURKE CENTRE PARKWAY
Burke, VA 22015
http://www.microwavetech.com
15 Employees

SBIR Award Summary

Total Number of Awards 30
Total Value of Awards $9.33MM
First Award Date 01/01/84
Most Recent Award Date 09/01/09

Key Personnel

Last Name Name Awards Contact
Velazco Dr. Jose E. Velazco 26 Message
Dawson Ms. Kathryn L. Dawson 7 Message
Velazco Jose E Velazco 3
brackett Weldon s. brackett 1

30 Awards Won

Phase 2 SBIR

Agency: Department of Health & Human Services
Topic: PA-07-280
Budget: 09/01/09 - 08/31/11

DESCRIPTION (provided by applicant): We propose the development of a very compact, rotating-wave electron beam accelerator (RWA) for x-ray radiotherapy applications. The proposed accelerator employs a very short accelerating structure to accelerate a low-energy electron beam to a final energy of 6 MeV in a highly efficient manner. The RWA offer...

Phase 2 SBIR

Agency: Department of Health & Human Services
Topic: PA-07-80
Budget: 09/01/08 - 08/31/09

DESCRIPTION (provided by applicant): We propose the development of a very compact, rotating-wave electron beam accelerator (RWA) for x-ray radiotherapy applications. The proposed accelerator employs a very short accelerating structure to accelerate a low-energy electron beam to a final energy of 6 MeV in a highly efficient manner. The RWA offer...

Phase 2 SBIR

Agency: Army
Topic: A05-040
Budget: 09/08/06 - 09/08/08

Microwave Technologies proposes the development of a revolutionary miniature submillimeter-wave magnetron oscillator (SMO) that will provide tens of milliwatts of terahertz radiation for applications requiring greater imaging resolution and higher communication bandwidth. The proposed SMO concept uses a cross-field arrangement wherein a rotatin...

Phase 1 SBIR

Agency: Army
Topic: A05-040
Budget: 12/10/05 - 05/09/06

We propose the development of a revolutionary miniature submillimeter-wave magnetron oscillator (SMO) that will provide multi-milliwatt terahertz radiation for applications requiring greater imaging resolution and higher communication bandwidth. The proposed SMO concept uses a cross-field arrangement wherein a rotating electron beam interacts w...

Phase 2 SBIR

Agency: Air Force
Topic: AF03-088
Budget: 09/30/04 - 09/30/06

We propose the prototype development of an efficient V-band dielectric traveling-wave tube (DTWT) that will provide high frequency radiation for rf communications applications in future military satellites. The DTWT is based on an efficient interaction between a small-diameter electron beam and the electromagnetic fields of a traveling wave ins...

Phase 2 STTR

Institution: George Mason University

Agency: Army
Topic: ARMY03-T07
Budget: 08/31/04 - 08/31/05

We propose the prototype development of a miniature W-band dielectric traveling-wave tube (DTWT) that will provide short-wavelength radiation for the Army's Network-centric Objective Force. The DTWT is based on the novel interaction between a small-diameter electron beam and the electromagnetic fields of a traveling wave inside a very compact d...

Phase 2 SBIR

Agency: Missile Defense Agency
Topic: MDA03-052
Budget: 08/26/04 - 08/26/06

We propose the prototype development of a very compact high-efficiency nanotube-driven X-band microwave amplifier (NDXA) for radar and rf communications applications in ballistic missile sensor systems. The NDXA is a compact vacuum tube that uses a rugged carbon-nanotube cold-cathode and a compact two-cavity system to produce X-band microwave r...

Phase 1 SBIR

Agency: Missile Defense Agency
Topic: MDA04-039
Budget: 05/17/04 - 11/17/04

We propose the prototype development of an efficient extended-interaction X-band amplifier (EIXA) that will provide high power X-band radiation for space communications. The EIXA is based on the interaction between a high-frequency electron bunches and the electromagnetic fields of a very compact dielectric-lined waveguide. The dielectric wave...

Phase 2 STTR

Institution: George Mason University

Agency: Missile Defense Agency
Topic: BMDO01T-001
Budget: 02/18/04 - 06/17/06

We propose the prototype development of a novel miniature dielectric traveling-wave tube (DTWT) that will provide short-wavelength electromagnetic radiation for numerous military and civilian applications. The DTWT is based on an efficient interaction between a small-diameter electron beam and the electromagnetic fields of a traveling wave insi...

Phase 1 SBIR

Agency: Missile Defense Agency
Topic: MDA03-052
Budget: 08/14/03 - 02/10/04

This Small Business Innovation Research Phase I project will involve the development of a very compact high-efficiency nanotube-driven X-band microwave amplifier (NDXA) for radar and rf communications applications in ballistic missile sensor systems. The NDXA is a compact vacuum tube that uses a rugged carbon-nanotube cold-cathode and a compact...

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