dc-dc变换器分布和冗余对电池集成变换器系统可靠性的影响

R. Khanaki, Geoffrey R Walker, M. Broadmeadow, G. Ledwich
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引用次数: 4

摘要

电池集成变换器系统作为串联电池系统中电荷平衡的一种解决方案首次被提出。将电池单元/模块与单独的转换器模块化也提供了冗余的机会,从而提高了可靠性。通过添加额外的串联模块,具有故障电池单元/块的模块可以被其相关的转换器绕过,同时保持系统运行。本文评估了变流器分布对系统可靠性的影响。结果表明,在电池和变换器故障率较低的情况下,通过适当的冗余选择,可以设计出高可靠性的系统。然而,在模块故障率(基于电池和转换器故障率)之间存在折衷;和冗余水平。对于故障率较高的模块,可以通过每年定期更换故障模块来提高系统的可靠性。采用这种方法,对于单串/两串额定电压为30v的模块系统和两串并联额定电压为40v的模块系统,可以实现6 -sigma准则。建议进一步进行可靠性成本评估,根据模块额定电压、模块可靠性、冗余级别和定期维护间隔等影响因素,选择适合特定应用的最佳设计。
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IMPACT OF DC-DC CONVERTER DISTRIBUTION AND REDUNDANCY ON RELIABILITY OF BATTERY-INTEGRATED-CONVERTER SYSTEMS
Battery-integrated-converter systems were first proposed as a solution for charge balancing in series connected battery systems. Modularizing the battery cells/blocks with individual converters also provides the opportunity for redundancy and thus increased reliability. By adding additional series modules, modules with failed battery cells/blocks can be bypassed by their associated converter while maintaining system operation. In this paper, we assess the effect of converter distribution on system reliability. The results show that for low battery cell and converter failure rates, by proper redundancy choice, it is possible to design a highly reliable system. However, there is a compromise between the module failure rate (based on the cell and the converter failure rates); and redundancy level. For the modules with higher failure rates, the system reliability can be improved by applying annual scheduled replacement of failed modules. Using this approach, the six-sigma criterion can be achieved for a system of single/two strings of 30 V rated modules and the system of two parallel strings of 40 V rated modules. Further reliability-cost assessment is suggested to choose the optimum design for a specific application based on the influential factors such as: module voltage rating, module reliability, redundancy level, and scheduled-maintenance intervals.
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