专业生产汽车点火线圈、汽车传感器。
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利用超声波焊接实现汽车传感器封装,是高效率、低成本的技术。
Ultrasonic welding technique to realize automobile sensor seal is a higher efficiency and lower cost technology.
由于受到温度、磁场等外界因素的干扰,汽车传感器的测量精度降低,致使汽车的整体性能下降。
Owing to the interference by the temperature and magnetic field, the measurable precision of automobile sensor drops greatly, and then results in the decline of the whole function.
讲述了通过对材料、焊接方法的选择和焊口及工装设计与制造过程设计,来实现汽车传感器封装的方法。
Through material choice and welding method selection, by working equipment design and manufacture process design, this article explains the method to actualize automobile sensor sealed.
本文介绍了汽车传感器巨大的市场空间,指出了传感器在汽车中的地位,以及国内汽车传感器生产水平。
The article introduces a huge market of motorcar sensor, points out status of sensors in motorcar industry and production level of motorcar sensor in internal.
汽车传感器的应用将不仅仅局限在发动机管理系统,而是越来越多地与环境保护、安全和智能联系在一起。
The application of automotive sensors will not only confined to the engine management system, but more and more and environmental protection, security and smart together.
汽车传感器的监测值,如身体,车轮和横向加速度,并为每个车轮在持续的基础上用它们来产生理想的阻尼力。
Vehicle sensors monitor values such as body, wheel, and lateral acceleration, and use them to generate the ideal damping forces for each individual wheel on a continuous basis.
汽车OBD系统产生的盲区主要受电子连接及布线技术、汽车传感器质量和执行器性能、汽车接地技术等因素的影响。
The blind area of automotive OBD systems is mainly influenced by the electronic connecting and wiring technology, quality of sensors, performance of actuators and grounding practice.
根据卫星信号,连同轮速传感器输入的速度和仪表所示的方向,即使在汽车移动时也能确定它的位置。
The satellite signals, along with inputs on speed from a wheel-speed sensor and direction from a meter, determine the car's position even as it moves.
最终的目标是把道路上所有汽车通过无线网络联系起来,在车内安装支持 WiFi 的传感器。
The ultimate intention is to link up all the cars on the road via WiFi by setting up a WiFi-enabled sensor in a car.
其最终的目标是把道路上所有汽车通过无线网络联系起来,可以在车内安装传感器,或者也可通过把这个软件下载到智能手机上来实现。
The ultimate intention is to link up all the cars on the road via WiFi, either by setting up a WiFi-enabled sensor in a car, or by downloading the software on to a smartphone.
这种矩形机器人,看上去有点像缩小版的太阳能汽车。它装备着高分辨率的摄像机和传感器,能探测到长的过分高大的树木。
The rectangular robot--looking a bit like a scaled down version of a solar car--is equipped with a high-definition camera and sensors that can detect overgrown trees.
“大脑驾驶员”系统通过摄影机、雷达和激光传感器与汽车连接在一起,能够形成其周围的全景3d图像。
The BrainDriver technology works by rigging a car up with video cameras, radars and laser sensors to give it a full 3d picture of its surroundings.
这类使用传感器来识别其它车辆,行人和自行车的汽车将行驶的更加安全。
Cars that use sensors to recognize other vehicles, pedestrians and bikes will drive more safely.
只要司机头戴一个最初为视频游戏而设计的特殊小设备,它里面安装的传感器就可以通过无线技术连接到汽车的电子设备上。
The driver puts on a special headset - originally designed for video games - which has sensors linked to the car's electronics via wireless technology.
一项计算机仿真视觉系统简称GOLD,分析来自传感器的信息并自动调整汽车的速度和方向。
A computerized artificial vision system dubbed GOLD, for Generic Obstacle and Lane Detector, analyzed the information from the sensors and automatically adjusted the vehicles' speed and direction.
嵌入街道的传感器可以准确的数出汽车的数量,但却不能计算出乘客数量也不能探测到行人或骑自行车的人。
Sensors embedded in streets can accurately count vehicles, for example, but cannot count passengers or detect pedestrians and cyclists.
这些传感器将生物电脑电波转化成能够被计算机控制的汽车识别的指令。
These sensors convert bioelectric brainwaves into commands read by a computer-controlled vehicle.
脑驾驶(BrainDriver)技术通过摄像机,雷达和激光传感器给周围环境一个完整的三维图像,从而较好地操控汽车。
The BrainDriver technology works by rigging a car up with video cameras, radars and laser sensors that give it a full 3d picture of its surroundings.
这周早些时候我们曾报道过随着越来越多的汽车,传感器网络,监视摄像机等设备被连接至网络,专家预测在接下来的十年里联网设备的数量有望突破220亿。
Earlier this week we reported that the number of Internet connected devices is expected to reach 22 billion in the next ten years as cars, sensor networks, security cameras and more come online.
最后一点也不容小觑,那就是5年后将有可能出现“平民科学家”。 他们的手机、汽车以及钱包中的传感器可收集数据以供研究。
The last but not the least, "citizen scientists" will emerge in five years, with sensors in cellphones, cars and wallets collecting data for research。
最后一点也不容小觑,那就是5年后将有可能出现“平民科学家”。 他们的手机、汽车以及钱包中的传感器可收集数据以供研究。
The last but not the least, "citizen scientists" will emerge in five years, with sensors in cellphones, cars and wallets collecting data for research.
未来“智能汽车”的关键在于传感器。
The key to tomorrow's "smart cars" will be sensors. "We'll."
卫星信号加上轮速传感器的速度输入以及仪表所示的方向,就能确定汽车的位置,即使它在开动中。
The satellite signals, along with inputs on speed from a wheel-speed sensor and direction from a meter, determine the car's position even as it moves. (CET-6, 2002.1
比如Zipcar和其他汽车租赁公司,将带有传感器的无线装置装入车内,从而按照行驶时数来对顾客收费。
Zipcar and other car-sharing firms, for instance, put wireless devices with sensors into their vehicles so that customers can hire them by the hour.
传感器将接收到的无线信号传递给位置组件,后者确定汽车目前位于哪个工作区。
The sensors pass the received radio signals to a location component that determines which zone the automobile is in.
RTLS解决方案使用了一组传感器(每个工作区分配一个传感器)来接收汽车车架上附加的活动rfid标签发出的无线信号。
The RTLS solution USES a matrix of sensors, one for each zone, to receive radio signals emitted from an active RFID tag affixed to the automobile's frame.
传感器装置可以使汽车感应道路宽度限制,交通和天气状况,同时分析收集的数据以备将来研究使用。
The sensors on the vehicles enabled them to navigate through wide extremes in road, traffic and weather conditions, while collecting data to be analyzed for further research.
传感器装置可以使汽车感应道路宽度限制,交通和天气状况,同时分析收集的数据以备将来研究使用。
The sensors on the vehicles enabled them to navigate through wide extremes in road, traffic and weather conditions, while collecting data to be analyzed for further research.
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