Opteos, Inc.

1340 Eisenhower Place
Ann Arbor, MI 48108
http://www.opteos.us
9 Employees

SBIR Award Summary

Total Number of Awards 10
Total Value of Awards $3.82MM
First Award Date 01/01/04
Most Recent Award Date 08/23/11

Key Personnel

Last Name Name Awards Contact
Yang Dr. Kyoung Yang 8
Thiesen Jack Thiesen 2 Message

10 Awards Won

Phase 2 SBIR

Agency: Air Force
Topic: AF093-029
Budget: 08/23/11 - 08/29/13

ABSTRACT: Opteos Inc. is proposing a new approach to the measurement of electric fields based on the electrooptics principles. This system promises an extremely high bandwidth of operation, 50GHz to 100GHz, a wide dynamic range up to 60dB, and high accuracy better than 1% full scale. The system is modular with partitioning concepts that allow f...

Phase 1 SBIR

Agency: Air Force
Topic: AF093-029
Budget: 05/05/10 - 03/05/11

Opteos Inc. is responding to an Air Force request to develop a rugged field-portable multi-channel measurement system with non-perturbing probes capable of measuring and displaying real time waveforms from RF pulses with frequency components from 3 kHz to 100 GHz and peak field strengths of 2 MV/m or 5 kA/m with pulse widths as short as 100 pico...

Phase 2 SBIR

Agency: Missile Defense Agency
Topic: MDA05-034
Budget: 06/19/07 - 06/18/09

The goal of this SBIR project is the development, assembly, and functional test of a prototype fiber-coupled diagnostic system for the comprehensive calibration and performance monitoring of large scale phased-antenna arrays. In the proposed calibration system, innovative electro-optic (EO) field sensors will noninvasively monitor the near-field...

Phase 2 STTR

Institution: University of Michigan

Agency: Army
Topic: A04-T014
Budget: 09/27/06 - 09/27/07

An innovative, optically-interrogated test instrument, based on broadband, non-intrusive, miniaturized electro-optic (EO), magneto-optic (MO), and electro-optic voltage (EOV) sensors, will be developed for evaluating the operation of, and the electromagne

Phase 1 SBIR

Agency: Missile Defense Agency
Topic: MDA05-034
Budget: 03/06/06 - 09/07/06

The goal of this SBIR project is the development of a fiber-coupled diagnostic system for the comprehensive Tx/Rx-mode calibration and performance-monitoring of large-scale phased antenna arrays. In the proposed calibration system, innovative electro-optic (EO) field sensors will monitor near-field amplitude and phase emanating from the array un...

Phase 2 STTR

Institution: University of Michigan

Agency: Air Force
Topic: AF04-T025
Budget: 09/30/05 - 09/30/07

An innovative, high-speed electromagnetic-wave-detection system based on broadband, non-intrusive, miniaturized electro-optic (EO), magneto-optic (MO), and electro-optic voltage (EOV) sensors will be developed for evaluating the effects that pulsed electromagnetic (EM) waves have on specific components of electronic systems. The suite of optical...

Phase 1 SBIR

Agency: Missile Defense Agency
Topic: MDA04-182
Budget: 03/07/05 - 09/07/05

The goal of this SBIR project is the development of an Electro-optic Sensor Network (ESN) system that can be directly embedded into large-scale phased antenna arrays for accurate on-site array calibration, real-time fault isolation, and performance monitoring. This will be accomplished through acquisition of near-field amplitude and phase inform...

Phase 1 STTR

Institution: University of Michigan

Agency: Air Force
Topic: AF04-T025
Budget: 08/20/04 - 05/20/05

An innovative electromagnetic wave detection and measurement system based on broadband, non-intrusive, miniaturized electro-optic (EO) and magneto-optic (MO) sensors will be developed in order to evaluate the effects caused by short duration burst or pulsed EM waves incident on electronic circuits. Due to the compact size and non-metallic constr...

Phase 1 STTR

Institution: University of Michigan

Agency: Army
Topic: A04-T014
Budget: 07/19/04 - 01/31/05

The determination of the feasibility of utilizing optically-interrogated electro-optic and magneto-optic sensors as the front-end of a new, near-field characterization system for measuring time-varying, non-sinusoidal signals in microwave digital and mixed-signal circuits is proposed. The extraction of complex signals from the internal nodes of...

Phase 1 SBIR

Agency: National Aeronautics and Space Administration
Topic: 04-1
Budget: 01/01/04 - 12/31/04

Limitations on the design, monitoring and diagnosis of complex microwave systems due to insufficient models, the reality of imperfect physical conditions, and the reliance on trial-and-error iteration for system improvement serve to increase the time and costs of radar development. While microwave characterization is traditionally the realm of c...

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