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A Smart Control System for Electric Vehicle Batteries
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English
Abstract
A smart control system for electric vehicle (EV) batteries was designed and its performance was evaluated. The hardware for the system was based on the Motorola MC68HC11ENB micro controller. A zinc bromide (Zn/Br2) battery was choosen since it a good candidate as an EV battery and has a large number of user variable parameters that affect its performance.
The flexibility of the system arises from the fact that the system can be programmed to do a wide variety of jobs. The use of real time interrupts and other features makes the system safe for use along with the battey systems.
Test data indicates that real time control of the different parameters can increase the performance of the battery by 15%. In addition to optimizing the performance of the battery the control system incorporates essential safety features.
Authors
Citation
Arikara, M., Dickinson, B., and Branum, B., "A Smart Control System for Electric Vehicle Batteries," SAE Technical Paper 931798, 1993, https://doi.org/10.4271/931798.Also In
Electric Vehicle Power Systems: Hybrids, Batteries Fuel Cells
Number: SP-0984; Published: 1993-08-01
Number: SP-0984; Published: 1993-08-01
References
- The Zinc-Bromine battery development by SEA Tomazic, G.S. SEA, Austria, 11th international electric vehicle symposium Florence 1992