共查询到20条相似文献,搜索用时 125 毫秒
1.
<正>3.护盖/换挡油阀壳护盖/换挡油阀壳如图7所示。4.转速传感器系统转速传感器位置如图8所示。(1)内部变速器转速传感器内部变速器转速由主动传感器(带集成式的差速器霍尔传感器)记录。外板托架K81用作被动传感器元件,获取内部转速。(2)涡轮转速传感器涡轮转速由被动传感器(差速器霍尔传感器)记录。磁极转子用作主 相似文献
2.
3.
硅制传感器已有20多年历史,但它进入汽车工业并扮演重要角色只是近几年的事。传感器的另一个发展方向是可测量更多变量。美国汽车城底特律的汽车工程师们断言,硅将使新一代传感器变得更加小型化、智能化、价格也将大幅下降。 汽车设计人员选用硅传感器有几大因素。首先,硅传感器小巧、轻便,比原机电传感器更精确,可集成到微信息处理机,提供安全所需及排 相似文献
4.
2M—ASTC系统的组成
V77的M—ASTC系统由传感器、控制单元M-ASTC—ECU、执行器3部分组成。
2.1传感器
M—ASTC系统用传感器主要由车轮速度传感器、制动主缸压力传感器以及转向盘转角传感器和组合传感器等组成。 相似文献
5.
6.
7.
在20世纪60年代,汽车上仅有机油压力传感器、油量传感器和水温传感器,它们与仪表或指示灯连接。进入70年代后,为了治理排放,又增加了一些传感器来帮助控制汽车的动力系统,因为同期出现的催化转换器、电子点火和燃油喷射装置需要这些传感器来维持一定的空燃比 相似文献
8.
<正>大众02E直接换挡变速器(DSG)使用了变速器输入转速传感器、输入轴转速传感器、变速器输出转速传感器、液压压力传感器、多片式离合器油温传感器、变速器油温传感器和控制单元温度传感器、挡位调节位移传感器、换挡杆传感器控制单元等传感器,这些传感器为变速器控制单元精确提供信号。变速器输入转速传感器变速器输入转速传感器G 182安装在变速器壳体内,如图1所示。该传感器扫描双离合器的外侧,并采集变速器输入转速。变速器输入转速与发动机转速相同,按照霍尔 相似文献
9.
随着近年来电子设备水平的提高和加强,传感器的重要价值也得到了充分体现。未来传感器必然将面向体积小、功能多、集成度高、智能化、非常系统的方向发展。应变式传感器是现今最常用的传感器之一,传感器的电阻应变效应的主要用途。在下面的这篇文章里将主要分为以下两个部分进行简单浅显的介绍:应变传感器的原理和对应变式传感器性能的测定。 相似文献
10.
传感器是汽车电子技术领域的绝对核心,随着科学技术的飞速发展,汽车所使用的传感器已高达数百个,各类传感器的组合应用,极大促进了现代汽车电子技术的进步与改革.本文将以传感器在汽车电子技术中发挥的主要作用,以及汽车电子技术发展新常态下对传感器所提出的全新要求为切入点,针对当前车用传感器的主要类型以及传感器在不同位置的具体应用... 相似文献
11.
针对汽车传感器教学难的现状,介绍汽车传感器的“识、讲、检”理实一体化的三步教学方法。以水温传感器为例,可以起到举一反三、抛砖引玉的作用,供同行参考。 相似文献
12.
Optimal sensor placement on freeway corridor is of great interest to transportation authorities. However, current traffic sensors are easily subject to various failures. Therefore, it is necessary to incorporate sensor failure into the optimal sensor placement model. In this article, a two-stage stochastic model is proposed for the purpose of travel time estimation on freeway corridor. To balance the effectiveness and reliability, a stochastic conditional value at risk (CVaR) model is also proposed. Since both models are too complicated, a customized genetic algorithm is developed. Numerical experiments show that considering sensor failure makes a significant performance improvement in the sensor placement pattern. Sensitivity analysis is also applied to investigate the impact of a number of allowable sensors and different traffic sensor failure probability. 相似文献
14.
15.
AE888作为大众的明星发动机,更新到的第三代发动机性能更为出色,因此本文主要介绍如何利用曲轴位置传感器和凸轮轴位置传感器波形来分析发动机正时情况。发动机正时错误是导致发动机抖动的主要原因之一,以往验证正时都是通过正时工具、正时记号。都需要拆卸部分零部件才得以验证,本文通过对比G28、G40两个传感器波形就可以判断发动机正时情况。 相似文献
16.
车用传感器作为汽车电子控制系统的信息源,是汽车电子控制系统和智能检测系统中的关键部件。根据车用传感与检测技术的发展,结合汽车发动机、底盘、车身和安全系统的特点,分析几种新型车用传感器和智能检测系统的结构、工作原理和实际应用。 相似文献
17.
18.
This article evaluates the stop-bar detection and count performance of three advanced vehicle detection sensors under various environmental conditions at a signalized intersection. Continuing advancements to vehicle detection technologies and improvements to their detection capabilities to overcome issues from impacting conditions necessitates testing the performance of new and upgraded sensor products to evaluate their performance and identify the most suitable products for various climates and weather conditions. The three evaluated sensors were Autoscope Encore video, Iteris Vantage Edge 2 video, and Wavetronix SmartSensor Matrix microwave sensors. The three sensors performed with high detection sensitivity during ideal environmental conditions with up to 99.9% detection accuracy levels and are suitable for traffic monitoring centers that rely on remote access to the monitored sites and the collected data. However, they were affected by some extreme adverse weather conditions, mainly daytime and nighttime snow, daytime fog, dawn lighting, and strong winds (for high mounted devices). The selection of a sensor product will depend on the type of application and the priority given to the type of traffic data being collected. Overall, the Iteris video sensor performed with the highest detection sensitivity levels, with the Wavetronix Matrix microwave sensor performing similarly under most conditions (14 of 19 evaluated conditions). Autoscope video provided the highest count accuracies and also provides a much broader data collection capability. The results of this study will help transportation agencies in selecting suitable vehicle detection sensor technologies for future installations within their jurisdiction and improved data collection. 相似文献
19.
20.
电控柴油机传感器的结构原理及测试 总被引:1,自引:0,他引:1
电控柴油发动机能够根据环境、工况等的变化进行自我调节和控制,它主要通过各种传感器来监测当前的运行参数。本文简要介绍温度传感器、压力传感器和速度位置传感器这3类传感器的结构原理及测试方法。 相似文献