Title :
Hybrid power source for manportable applications
Author :
Jarvis, Louis P. ; Cygan, Peter J. ; Roberts, Marc P.
Author_Institution :
Res. Dev. & Eng. Center, US Army CECOM, Fort Monmouth, NJ, USA
fDate :
1/1/2003 12:00:00 AM
Abstract :
In this paper, we present the results of work with a hybrid power system made of a fuel cell and rechargeable battery with pulse power capability. This hybrid power source successfully ran pulse power load based on the power profile of the present and future manportable military electronics and communications equipment. The hybrid consisted of a 35 W proton exchange membrane fuel cell (PEMFC) stack in parallel with a Li-ion battery. In this work, two cyclic load scenarios were utilized. Each consisted of a baseline load for 9 minutes followed by a higher pulse load for 1 minute. One test profile consisted of 20 W (baseline)/40 W (pulse) load, whereas, the second was 25 W/50 W. Under both scenarios, the hybrid provided significant enhancements in performance over the individual components tested separately. These results are discussed and analyzed. Also discussed are possible future implications of such technology and approach.
Keywords :
electronic equipment testing; military equipment; portable instruments; power supplies to apparatus; power supply circuits; proton exchange membrane fuel cells; secondary cells; 1 min; 20 W; 25 W; 35 W; 40 W; 50 W; 9 min; Li; Li-ion batteries; PEMFC stacks; cyclic load testing; hybrid power sources; man-portable applications; manportable military electronics; military communications equipment; proton exchange membrane fuel cell stacks; pulse power capability; pulse power loads; rechargeable batteries; system power output; Batteries; Communication equipment; Fuel cells; Hybrid power systems; Military communication; Military equipment; Protons; Pulse power systems; Radio access networks; Testing;
Journal_Title :
Aerospace and Electronic Systems Magazine, IEEE
DOI :
10.1109/MAES.2003.1167324
