Elintrix

621 S. Andreasen Dr Suite E
Escondido, CA 92029
http://www.elintrix.com
8 Employees

SBIR Award Summary

Total Number of Awards 9
Total Value of Awards $4.62MM
First Award Date 08/12/05
Most Recent Award Date 06/12/17

Key Personnel

Last Name Name Awards Contact
Barnett Mr. Drew Barnett 7 Message
Barnett Alan Barnett 2 Message
Hargis Sandra Hargis 1 Message

9 Awards Won

Phase 1 SBIR

Agency: Department of Energy
Topic: 05b
Budget: 06/12/17 - 03/11/18

Catastrophic natural events can damage the electrical power grid, resulting in outages that put public health and safety at risk. The U.S. Department of Energy is working to develop methods that will hasten restoration of electrical service and reduce these risks. Such methods will shorten the duration of power outages by providing enhanced cap...

Phase 2 SBIR

Agency: Army
Topic: A09-153
Budget: 01/06/11 - 01/06/13

Advances in electronic-nose algorithms coupled with a method for improving the performance of metal-oxide sensors opens the way to the development of robust, low-cost, sensor products that can be applied to meet the growing demand for the detection of Toxic Industrial Chemicals (TICs) and Toxic Industrial Materials (TIMs) in workplace and operat...

Phase 1 SBIR

Agency: Army
Topic: A09-153
Budget: 02/15/10 - 09/30/10

Harmful exposure to volatile organic compounds (VOCs) that occur in operational environments and workplaces represents a health- and performance-risk to dismounted Warfighters and other personnel. There is an unmet need for a highly-integrated, minimalist sensing capability that not only meets sensing requirements, but that can be used where the...

Phase 2 STTR

Institution: University of California, San Diego

Agency: Army
Topic: A07-T035
Budget: 07/08/08 - 07/14/10

There is a large unmet need for low-power sensor systems. This is not due to a lack of transducers, for there are many physical properties of a molecule or nanostructure that can be harnessed to perform the basic sensing task. The absence is due to problems in integrating science with technology into a small, portable, packageable scale. Whil...

Phase 2 SBIR

Agency: Office of the Secretary of Defense
Topic: OSD06-H01
Budget: 05/06/08 - 05/06/10

A unique, body-worn, personal area network using lightweight, inductively-coupled (near-field) software-defined-radio (SDR) links to communicate physiologic-sensor and geo-position information is essential to the reduction of soldier heat-injuries, enables advanced physiologic research and provides a means of significantly increasing the quality...

Phase 1 SBIR

Agency: Office of the Secretary of Defense
Topic: OSD06-H01
Budget: 08/07/07 - 08/07/08

Performance- and cost-requirements for the BIONET, body-worn, personal area network is fruitfully addressed in a cost-effective manner by using modern, digital-signal-controller technology, combined with software-defined-radio techniques. The open architecture and flexible design enabled by this technology facilitates novel processing methods t...

Phase 1 STTR

Institution: University of California, San Diego

Agency: Army
Topic: A07-T035
Budget: 07/30/07 - 12/29/07

There is a large unmet need for low-power sensor systems. This is not due to a lack of transducers, for there are many physical properties of a molecule or nanostructure that can be harnessed to perform the basic sensing task. The absence is due to problems in integrating science with technology into a small, portable, packageable scale. Whil...

Phase 2 STTR

Institution: The Ohio State University

Agency: Army
Topic: A05-T028
Budget: 08/07/06 - 12/06/08

A unique, wireless, body-worn system to establish on-body collection and intra-squad communication of physiologic and geo-position information is essential to the reduction of soldier heat-injuries, enables advanced physiologic research and provides a mea

Phase 1 STTR

Institution: San Diego State University

Agency: Army
Topic: A05-T028
Budget: 08/12/05 - 02/14/06

Technological advances in networking, transceiver technology, digital signal processing and embedded systems enable the design of a low power, low cost, wireless communication system that does not restrict the mobility of the subject, or the observer. Prior research has focused on routing and channel access, but has not considered these issues, ...