适用于车载电子设备。
本文主要研究车载电子设备压电式自适应隔振技术。
This thesis focuses on the technique research of adaptive vibration-isolation for vehicle electronic equipment by piezoelectric materials.
最后在车载电子设备干扰源分析的基础上,提出了几种可行的抗干扰措施。
Finally, on the basis of the analysis of automobile-mounted electronic equipment interference, several feasible anti-jamming measures are given.
并根据试验结果的对比,为车载电子设备隔振缓冲系统合理选型提供了参考依据。
And by comparing the test results, the authors give the reference to selecting the reasonable guarding system against vibration and impact used in tracked vehicles.
分析了阻尼对隔振系统设计的主要影响,对抑制某车载电子设备隔振系统共振响应提出了一种比较有效的解决方法。
This paper analyses the main effect of damping upon vibration isolation, presents an effective scheme to decrease the resonance of electronic equipment vibration isolation system in camion.
该联轴节的运转无需昂贵的车载电子设备,也不需要驾驶者干预,并且经过专门设计,在车辆的整个使用寿命中都无需维护。
The operation of coupling the vehicle without expensive electronic equipment, do not need to interfere with the driver and specially designed vehicles have the entire service life without maintenance.
技术应用的最突出部分是一个车载单元(简称OBU,一个用于交易的电子设备),通常被安装在卡车的仪表板上。
The most visible expression of this is the On-Board Unit, or OBU—an electronic jack-of-all-trades usually installed on a truck's dashboard.
技术应用的最突出部分是一个车载单元(简称OBU,一个用于交易的电子设备),通常被安装在卡车的仪表板上。
The most visible expression of this is the On-Board Unit, or OBU—an electronic jack-of-all-trades usually installed on a truck's dashboard.
车载信息系统是汽车上电子设备的综合,它主要包括汽车信息显示和故障诊断两大类。
Carborne information system is the integration of all the electronic equipments of the car, it mainly consists of carborne information display system and malfunction diagnosis system.
本文介绍车载电气,电子设备的传导瞬变发射和设备的抗瞬变干扰能力。
This paper discusses the conductive transient emission of onboard electrical and electronic equipment and equipment's resistance to transient disturbance.
本文介绍车载电气,电子设备的传导瞬变发射和设备的抗瞬变干扰能力。
This paper discusses the conductive transient emission of onboard electrical and electronic equipment and equipment's resistance to transient disturbance.
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