gross start-stop distortion
简明释义
总起止畸变
英英释义
例句
1.The audio system experienced a lot of gross start-stop distortion, making it difficult to enjoy the music.
音响系统经历了很大的严重的启动停止失真,使得享受音乐变得困难。
2.During the test, the engineer noted significant gross start-stop distortion in the motor's performance.
在测试中,工程师注意到电机性能中存在显著的严重的启动停止失真。
3.The video playback was interrupted by gross start-stop distortion, ruining the viewing experience.
视频播放被严重的启动停止失真打断,毁坏了观看体验。
4.The data showed that gross start-stop distortion was affecting the accuracy of our measurements.
数据显示,严重的启动停止失真影响了我们测量的准确性。
5.We need to address the gross start-stop distortion in our system to improve overall efficiency.
我们需要解决系统中的严重的启动停止失真以提高整体效率。
作文
In the realm of automotive technology, the term gross start-stop distortion refers to a significant disruption in the engine's performance during the start-stop cycle. This phenomenon is particularly relevant in vehicles equipped with stop-start systems, which are designed to improve fuel efficiency by shutting off the engine when the vehicle is idle and restarting it when the driver accelerates. However, the implementation of such systems can sometimes lead to unintended consequences, notably the gross start-stop distortion. This distortion can manifest as a rough engine restart, increased emissions, or even a delay in power delivery, all of which can compromise the driving experience.One of the primary causes of gross start-stop distortion is the complexity of the engine management systems that control these start-stop functionalities. The system must ensure that the engine restarts smoothly and efficiently, but various factors such as battery health, temperature, and load conditions can affect this process. For instance, if the battery is not sufficiently charged, the engine may struggle to restart quickly, leading to noticeable delays or jerks, which can be frustrating for drivers.Moreover, gross start-stop distortion can also occur due to mechanical issues within the engine itself. Components such as the starter motor, ignition system, and fuel injectors must work in perfect harmony to facilitate a seamless transition between on and off states. If any of these components are worn or malfunctioning, the result can be a jarring experience for the driver, detracting from the overall comfort and performance of the vehicle.The implications of gross start-stop distortion extend beyond mere inconvenience; they can also have significant environmental impacts. When the engine does not restart efficiently, it can lead to higher emissions, counteracting the very purpose of implementing stop-start technologies. This is particularly concerning in urban areas where air quality is already a pressing issue. Therefore, addressing the causes of gross start-stop distortion is crucial not only for enhancing vehicle performance but also for promoting sustainability in automotive design.To mitigate the effects of gross start-stop distortion, manufacturers are continually researching and developing more sophisticated engine management systems that can adapt to varying conditions and ensure smoother transitions. Technologies such as advanced sensors and predictive algorithms are being integrated to monitor the vehicle's state and optimize the start-stop process. Additionally, regular maintenance of the vehicle's components is essential for preventing the deterioration that leads to gross start-stop distortion.In conclusion, while stop-start systems offer an innovative solution to improve fuel efficiency, the challenge of gross start-stop distortion must be addressed to fully realize their potential. By understanding the underlying causes and implementing effective solutions, manufacturers can enhance the driving experience and contribute to a more sustainable future in automotive technology. As consumers, being aware of these issues can also help us make informed decisions when selecting vehicles equipped with such systems, ultimately leading to a better balance between performance, comfort, and environmental responsibility.
在汽车技术领域,术语gross start-stop distortion指的是在启动-停止循环过程中,发动机性能的显著干扰。这一现象在配备了启停系统的车辆中尤为相关,这些系统旨在通过在车辆空闲时关闭发动机并在驾驶员加速时重新启动发动机来提高燃油效率。然而,这种系统的实施有时会导致意想不到的后果,特别是gross start-stop distortion。这种失真可能表现为发动机重启不平稳、排放增加,甚至动力传递延迟,所有这些都可能影响驾驶体验。造成gross start-stop distortion的主要原因之一是控制这些启停功能的发动机管理系统的复杂性。该系统必须确保发动机平稳高效地重新启动,但电池健康、温度和负载条件等各种因素可能会影响这一过程。例如,如果电池充电不足,发动机可能会在重启时挣扎,导致明显的延迟或颠簸,这对驾驶员来说可能是令人沮丧的。此外,gross start-stop distortion也可能由于发动机内部的机械问题而发生。起动电机、点火系统和燃油喷射器等组件必须完美协调,以促进开关状态之间的无缝过渡。如果这些组件中的任何一个磨损或故障,结果可能是驾驶员体验到的颠簸感,削弱了车辆的整体舒适性和性能。gross start-stop distortion的影响不仅仅是小麻烦;它们还可能对环境产生重大影响。当发动机无法高效重启时,可能会导致更高的排放,抵消实施启停技术的初衷。这在空气质量已经是一个紧迫问题的城市地区尤其令人担忧。因此,解决gross start-stop distortion的原因对于提升车辆性能以及推动汽车设计的可持续性至关重要。为了减轻gross start-stop distortion的影响,制造商们不断研究和开发更复杂的发动机管理系统,这些系统能够适应不同的条件并确保更平稳的过渡。先进传感器和预测算法等技术正在被整合,以监测车辆状态并优化启停过程。此外,定期维护车辆组件对于防止导致gross start-stop distortion的退化至关重要。总之,尽管启停系统提供了一种创新的解决方案以提高燃油效率,但必须解决gross start-stop distortion的问题,以充分实现其潜力。通过理解潜在原因并实施有效解决方案,制造商可以提升驾驶体验,并为汽车技术的可持续未来做出贡献。作为消费者,了解这些问题也可以帮助我们在选择配备此类系统的车辆时做出明智的决定,从而最终在性能、舒适性和环境责任之间实现更好的平衡。
