共查询到17条相似文献,搜索用时 78 毫秒
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EBS控制系统为电控系统,除了包含原有的ABS及其相关功能之外,还增加了制动管理功能,其中制动管理功能是EBS制动系统最强大最先进的功能。 相似文献
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汽车制动系统的电子控制 总被引:2,自引:1,他引:2
汽车制动系统是汽车主动安全系统的重要组成部分,制动系统的电子控制极大地提高了汽车的主动安全性。本文介绍汽车制动系统中主要的电子控制功能ABS、EBD、CBC、BAS及EBS的组成及工作原理。 相似文献
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EBS系统作为制动系统的重要构成,能够给重卡车型提供快速、稳定和合理的制动性能,其也是重型汽车自动驾驶系统中的重要组成部分,能够为车辆提供线控制动的相关控制接口,能够快速响应其他系统(如智能驾驶控制系统)的减速和制动请求。本文主要介绍重型汽车EBS电子制动系统的组成、系统电路,以及制动控制的相关内容,为重型汽车的后期自动驾驶的开发和应用提供支持。 相似文献
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介绍电子控制制动系统(EBS)的基本原理和基于EBS技术的拓展技术的发展情况,并着重阐述了系统在车型开发时的应用技术,为开发工程师提供一定的参考价值. 相似文献
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汽车制动系统经历了从传统机械制动到液压防抱死制动系统ABS,再到电子制动控制系统EBS。如今又出现了一种全新的制动理念,它是集成了电子控制系统和电液制动力增压器的一种新型汽车制动技术,即汽车电子感应制动控制系统(Sensotronic Brake Contral),简称SBC。电子感应制动控制系统SBC最早是由博世公司提出来的。在20世纪90年代,博 相似文献
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1 EBS EBS(Electronic Braking System)是在ABS基础上全新开发的电子制动系统.它具有制动管理功能,使得不同车桥之间、主挂车之间的制动力得到合理分配,增加了制动舒适性,安全性能也得到了改善. 相似文献
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本文介绍了EBS系统的基本结构与控制原理,通过测试,详细分析重型车装配EBS系统的制动性能,并与常规气制动系统进行比较,体现其性能优劣性。 相似文献
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Graeme Morrison 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2017,55(5):725-749
‘Slip control’ braking has been shown to reduce the emergency stopping distance of an experimental heavy goods vehicle by up to 19%, compared to conventional electronic/anti-lock braking systems (EBS). However, little regard has been given to the impact of slip control braking on the vehicle’s directional dynamics. This paper uses validated computer models to show that slip control could severely degrade directional performance during emergency braking. A modified slip control strategy, ‘attenuated slip demand’ (ASD) control, is proposed in order to rectify this. Results from simulations of vehicle performance are presented for combined braking and cornering manoeuvres with EBS and slip control braking with and without ASD control. The ASD controller enables slip control braking to provide directional performance comparable with conventional EBS while maintaining a substantial stopping distance advantage. The controller is easily tuned to work across a wide range of different operating conditions. 相似文献
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《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(4-5):285-297
Recent experiences have shown that even small-medium size passenger cars face an accident which has been connected with commercial vehicles so far: the roll-over. The roll-over is the most horrible accident type for truck drivers, since he/she does not have any indication before it happens, and consequently does not react properly. This article discusses some of the problems of the commercial vehicle stability in general, and offers a solution for detecting and avoiding roll-over by using the existing sensors and actuators of electronic brake system (EBS). 相似文献
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L szl Palkovics kos Semsey Eduard Gerum 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》1999,32(4):285-297
Recent experiences have shown that even small-medium size passenger cars face an accident which has been connected with commercial vehicles so far: the roll-over. The roll-over is the most horrible accident type for truck drivers, since he/she does not have any indication before it happens, and consequently does not react properly. This article discusses some of the problems of the commercial vehicle stability in general, and offers a solution for detecting and avoiding roll-over by using the existing sensors and actuators of electronic brake system (EBS). 相似文献