期刊文献+

轻型汽油车国六后处理OBD系统研发现状 被引量:6

Review of China 6 Aftertreatment OBD System R&D for Light Duty Gasoline Vehicles
下载PDF
导出
摘要 随着轻型汽油车排放法规的不断加严,车载在线诊断(OBD)面临更复杂和更全面的技术要求。本文介绍了OBD系统的工作原理和发展历程,对轻型车国六法规中的OBD技术要求进行了总结;结合国内外典型研究成果与工程范例,重点介绍轻型汽油车集成后处理系统关键部件三效催化转化器(TWC)和汽油机颗粒捕集器(GPF)等核心诊断技术,并对基于氧传感器信号分析、储氧量模型、压差传感器、颗粒物(PM)传感器及射频(RF)传感器的故障诊断算法的原理和优缺点进行了深入解析。对OBD系统的研究现状进行了宏观和微观两个层面的归纳,从软硬件角度指出了现阶段的工作难点,并对未来OBD研发趋势进行了展望。 With the increasing tightening of emission regulations for light duty gasoline vehicles, On- Board Diagnostics (OBD) faces more complex and comprehensive technical requirements. This paper introduces the working principle and development process of the OBD system, and summarizes the OBD technical requirements in China 6 emission regulations. Combining the typical research results and engineering examples in the world, the key diagnostic technology of the important component of integrated aftertreatment system, Three- Way Catalytic Converter (TWC) and Gasoline Particulate Filter (GPF) are highlighted. The principle, advantages and disadvantages of fault diagnosis algorithms based on oxygen sensor signal analysis, oxygen storage model, differential pressure sensor, Particulate Matter(PM)sensor, Radio Frequency(RF)sensor are analyzed deeply. The research status of OBD system is summarized at the macro and micro levels. The difficulties of the current stage are pointed out from the perspective of hardware and software, and the future development trend of OBD is prospected.
作者 帅石金 刘洋 张云龙 Shuai Shijin;Liu Yang;Zhang Yunlong(State Key Laboratory of Automotive Safety and Energy,Tsinghua University,Beijing 100084)
出处 《汽车文摘》 2019年第7期1-9,共9页 Automotive Digest
基金 国家重点研发计划“大气污染成因与控制技术研究”重点专项项目“汽油车颗粒物捕集与清洁排放集成技术”课题——汽油车车载诊断及系统集成技术研究(2017YFC0211004)
关键词 汽油车 三效催化剂 颗粒捕集器 车载在线诊断 Gasoline vehicle Three Way Catalyst (TWC) Gasoline Particulate Filter (GPF) On-Board Diagnostics (OBD)
  • 相关文献

参考文献5

二级参考文献36

  • 1敖建华,沈一峰,苗晓坤.数据流在电控汽车故障诊断中的应用[J].汽车电器,2006(5):43-45. 被引量:6
  • 2Koupal J W, Sabourin M A, et al. Detection of Catalyst Failure On-Vehicle Using the Dual Oxygen Sensor Method. SAE 910561.
  • 3“EOBD项目开发建议方案”PPT文档.Delphi公司.2005.09.
  • 4“EOBD标定及控制策略”PPT文档.Bosch公司.2006.11.
  • 5Allen Lyons, Michael McCarthy. Transitioning Away from Smog Check Tailpipe Emission Testing in California for OBD II Equipped Vehicles. California Air Resources Board, March 2009.
  • 6Workshop for 2006 Biennial OBDII Update and Emission Warranty Changes. Advanced Engineering Section Mobile Source Control Division, California Air Resources Board, November 16, 2005.
  • 7Martin Klenk, Wintried Moser,Werner Muetler, el al. Mis- fire Detection by Evaluating Crankshaft Speed-A Means to Complywith OBDII. SAE. 930399.
  • 8Masanori Ogawa, Kazuya Katano, Takao Asaka,et al. De- velopment of Engine Roughness Tester. SAE 960617.
  • 9Joseph R.Theis,An Engine Test to measure the Oxygen Storage Capacity of a Catalyst. SAE 961900.
  • 10Hansjoerg Germann, Sergio Taglaiferri, Hans P.Geering, Differences in Pre-and Post-Converter Lambda Sensor Characteristics. SAE 960335.

共引文献33

同被引文献19

引证文献6

二级引证文献3

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部