Ultra-capacitor augmentation of the vehicle electrical system to reset its power budget

Author

Miller, John M. ; Everett, Michael

Author_Institution

J-N-J Miller Design Services, Cedar, MI, USA

fYear

2004

fDate

21-22 Oct. 2004

Firstpage

19

Lastpage

26

Abstract

Average electrical burden in passenger vehicles, cars and light trucks, has escalated in recent years from 500 W to 700 W and higher. Year over year growth in electrical loads is now between 100 W to 150 W with no end in sight. OEM´s maintain that a 14 V electrical system can sustain such growth and moreover, that 14 V electrified ancillaries are containable as well. With alternator technology now exceeding 3000 W and currents above 200 A it is incumbent upon the industry to evaluate means to reset the vehicle power budget. This work argues that such power budget resetting may be realized economically using existing 14 V alternator and battery technology but augmenting the vehicle charging system with a 28 V ultra-capacitor module. The series connected battery and ultra-capacitor module provide regulated 42 V for high power electrical loads leaving the base 14 V system unchanged.

Keywords

alternators; battery powered vehicles; electric propulsion; load (electric); supercapacitors; 14 V; 28 V; 42 V; alternator technology; battery technology; distributed modules; electrical loads; propulsion technology; ultra-capacitor; vehicle charging system; vehicle electrical system; vehicle power budget; vehicle power technology; Alternators; Automotive engineering; Batteries; Capacitors; Electric vehicles; Electronic switching systems; Energy storage; Fuel cells; Reluctance motors; Vehicle driving;

fLanguage

English

Publisher

ieee

Conference_Titel

Power Electronics in Transportation, 2004

Print_ISBN

0-7803-8538-1

Type

conf

DOI

10.1109/PET.2004.1393785

Filename

1393785