capacitive 释义:
1. adj. 容性的;电容的
发音:/?k?p??s?t?v/
英语范文:
电容在电子设备中的应用非常广泛,它可以用来存储电荷,并且在交流电路中起到阻抗变化的作用。
音标和基础释义:
capacitive [k?p??s?t?v] : adj. 电容的;容性的
例句:The capacitive sensor can detect the presence of an object. 电容式传感器可以检测物体是否存在。
Capacitive
Capacitive is a term used in electrical engineering to describe a device that stores electrical energy in a dielectric medium. It is commonly found in electronic equipment such as computers, televisions, and mobile phones.
Capacitive sensors are commonly used in modern technology to detect the presence of objects or movement. For example, capacitive sensors are used in touch screens and proximity sensors. These sensors work by measuring the change in capacitance caused by the presence of an object.
Capacitive charging is another common use of capacitive technology. In capacitive charging, a device is placed near a charging station and charged without using wires or cables. This is achieved by using a high-frequency electric field to transfer energy between the device and the charging station.
In conclusion, capacitive is an essential component of modern electronic equipment and is widely used in various applications. Its unique properties make it a versatile and convenient technology that is constantly being improved and applied to new areas of technology.
例文:
"今天我要介绍的是一种名为capacitive的技术。在电气工程中,capacitive是一个术语,用于描述一种在电介质中储存电能的装置。在我们的电子设备中,如电脑、电视和手机中,我们都能看到capacitive的身影。
capacitive传感器在现代科技中有着广泛的应用。它们被用来检测物体的存在或运动。例如,capacitive传感器被用于触摸屏和接近传感器中。这些传感器通过测量由于存在物体而产生的电容变化来工作。
capacitive充电是capacitive技术另一个常见的应用。在capacitive充电中,设备被放置在充电站附近,并通过一种无需使用电线或电缆的方式进行充电。这是通过使用高频电场在设备与充电站之间传输能量来实现的。
总的来说,capacitive是现代电子设备中不可或缺的一部分,并且在各种应用中发挥着重要的作用。它独特的性质使得它成为一种多才多艺且方便的技术,这种技术正在不断改进并应用于新的科技领域。"
Capacitive
Capacitive is a term used in electronics to describe a type of electrical component that stores electrical energy in a dielectric material when a voltage is applied. It is one of the basic principles of electricity and is commonly found in modern electronic devices such as computers, mobile phones, and televisions.
Capacitive sensors are commonly used in modern automobiles to detect the presence of objects near the vehicle. These sensors are used to activate airbags and other safety features in the event of a collision. Capacitive sensors also have applications in biometrics, such as fingerprint recognition, where they can be used to verify the identity of a person by measuring their unique capacitance profile.
Capacitive technology has also been used in solar cells, where it allows for more efficient energy conversion. By using capacitive technology, solar cells can collect energy from ambient conditions, such as light and heat, and convert it into electricity. This technology is becoming increasingly popular in renewable energy sources as it is more efficient and sustainable than traditional methods of generating electricity.
In summary, capacitive is a fundamental principle of electricity that is widely used in modern electronic devices and has numerous applications in modern society. It allows for more efficient energy conversion and safer automotive features, and it can also be used to verify the identity of individuals.
Capacitive sensors are an excellent example of how this technology can be applied to real-world problems, and their use in biometrics is a particularly exciting area for future development. With further research and development, capacitive technology has the potential to play an even greater role in the future of sustainable energy sources and smart cities.
