Widetronix

Langmuir Laboratory 95 Brown Road - Box 1039
Ithaca, NY 14850
http://widetronix.com
6 Employees

SBIR Award Summary

Total Number of Awards 5
Total Value of Awards $2.51MM
First Award Date 07/01/04
Most Recent Award Date 04/20/12

Key Personnel

Last Name Name Awards Contact
Makarov Dr. Yuri Makarov 2 Message
Singh Dr. Ranbir Singh 1 Message
Spencer Dr. Michael Spencer 1 Message
Chandrashekhar MVS Chandrashekhar 1 Message
Thomas Christopher Thomas 2 Message

5 Awards Won

Phase 2 SBIR

Agency: Missile Defense Agency
Topic: MDA08-041
Budget: 04/20/12 - 04/19/13

Widetronix is commercializing betavoltaic batteries that produce nA to uA s of current continuously for 3 to 100 years. In addition to meeting desired AT operational lifetimes (>25 years), these continuous power generators have high energy density potential enabling integration with ultra low-power microelectronics. In this proposed Phase II eff...

Phase 2 SBIR

Agency: Missile Defense Agency
Topic: MDA08-041
Budget: 09/29/10 - 09/28/12

Widetronix is commercializing betavoltaic batteries that produce nA to uA s of current continuously for 3 to 100 years. In addition to meeting desired AT operational lifetimes (>25 years), these continuous power generators have high energy density potential enabling integration with ultra low-power microelectronics. In this proposed Phase II eff...

Phase 1 SBIR

Agency: Missile Defense Agency
Topic: MDA08-041
Budget: 03/27/09 - 09/27/09

Widetronix proposes two enabling enhancements for antitamper (AT) applicaitons in data protection and equipment monitoring as specified by our industrial partner, Lockheed Martin. Widetronix will build a compact, military ready SiC betavoltaic power generator with lifetimes of >20 years with power levels of 10nW-100uW. Further work in Phase II w...

Phase 2 STTR

Institution: Cornell University

Agency: Navy
Topic: N04-T029
Budget: 09/28/05 - 03/28/07

This program is focused on growth of thick low doped Silicon Carbide epitaxial layers suitable for ultra-high voltage (10-15 kV) SiC bipolar power devices using improved epitaxial growth chemistries and reactor design. This Phase II STTR program will focus on extending the growth rates achieved in Phase I, and to realize epitaxial layers that al...

Phase 1 STTR

Institution: Cornell University

Agency: Navy
Topic: N04-T029
Budget: 07/01/04 - 04/30/05

We propose to demonstrate the feasibility of high quality SiC epitaxial layer growth using low-temperature (1000 oC) Chemical Vapor Deposition (CVD) from chlorine containing carbon precursors. In this effort, we will focus on determining the optimal growth conditions, and select the most promising halogenated hydrocarbon precursors from availabl...