electrostatic discharge

简明释义

静电放电

英英释义

例句

1.Proper grounding techniques are necessary to minimize electrostatic discharge 静电放电 risks in manufacturing environments.

在制造环境中，采用适当的接地技术是必要的，以减少静电放电 electrostatic discharge 风险。

2.The technician wore an ESD wrist strap to avoid electrostatic discharge 静电放电 during the assembly process.

技术员佩戴了防静电腕带，以避免在组装过程中发生静电放电 electrostatic discharge。

3.In clean rooms, controlling electrostatic discharge 静电放电 is essential for maintaining product integrity.

在洁净室中，控制静电放电 electrostatic discharge 对于维护产品完整性至关重要。

4.Static electricity can lead to electrostatic discharge 静电放电, which may cause unexpected failures in electronic devices.

静电可能导致静电放电 electrostatic discharge，这可能会造成电子设备的意外故障。

5.When handling sensitive electronic components, it's crucial to prevent electrostatic discharge 静电放电 that can damage them.

在处理敏感电子元件时，防止静电放电 electrostatic discharge 造成损坏是至关重要的。

作文

Electrostatic discharge, often abbreviated as ESD, is a phenomenon that occurs when there is a sudden flow of electricity between two electrically charged objects. This discharge can happen in various environments and can have significant implications, especially in fields like electronics and manufacturing. Understanding electrostatic discharge is crucial for anyone working with sensitive electronic components, as it can lead to device failure or damage. In everyday life, we experience electrostatic discharge when we touch a metal object after walking on a carpet. The friction between our shoes and the carpet creates an imbalance of electric charge, which builds up on our bodies. When we touch a conductive material, such as a doorknob, the accumulated charge is released, resulting in a tiny shock. While this may be harmless to us, it can be devastating for electronic devices. In the manufacturing sector, electrostatic discharge poses a serious risk to the production and assembly of electronic products. Many components, such as microchips and circuit boards, are highly sensitive to even the slightest electrical disturbance. A single electrostatic discharge event can cause irreversible damage to these components, leading to costly repairs and delays in production. Therefore, companies invest heavily in ESD control measures to protect their products. To prevent electrostatic discharge, various strategies can be implemented. One common method is the use of antistatic materials, such as mats, wrist straps, and bags. These materials help to dissipate static electricity safely, preventing it from accumulating on sensitive equipment. Additionally, maintaining proper humidity levels in production environments can also reduce the likelihood of electrostatic discharge. Higher humidity levels increase the conductivity of the air, allowing charges to dissipate more easily. Training employees about the dangers of electrostatic discharge is equally important. Workers should be educated on best practices for handling electronic components, such as grounding themselves before touching sensitive devices and using ESD-safe tools. By fostering a culture of awareness around electrostatic discharge, companies can significantly reduce the risk of damage to their products. In conclusion, electrostatic discharge is a critical concept in the field of electronics and manufacturing. Understanding its causes and effects is vital for anyone involved in these industries. By implementing effective ESD control measures and educating personnel, organizations can safeguard their electronic components against the potentially destructive impact of electrostatic discharge. As technology continues to advance and components become even more sensitive, the importance of managing electrostatic discharge will only grow.

静电放电，通常缩写为ESD，是一种现象，当两个带电物体之间突然发生电流流动时，就会发生这种现象。这种放电可以在各种环境中发生，并且可能具有重要的影响，尤其是在电子和制造等领域。理解静电放电对任何与敏感电子元件打交道的人来说都是至关重要的，因为它可能导致设备故障或损坏。在日常生活中，当我们走在地毯上后触摸金属物体时，我们会体验到静电放电。我们的鞋子与地毯之间的摩擦会造成电荷的不平衡，这种电荷会在我们身体上积累。当我们触摸导电材料（如门把手）时，积累的电荷会释放出来，导致轻微的电击。虽然这对我们来说可能是无害的，但对于电子设备来说却可能是毁灭性的。在制造行业，静电放电对电子产品的生产和组装构成了严重风险。许多组件，如微芯片和电路板，极其敏感，甚至最轻微的电扰动也会造成损害。一次静电放电事件就可能对这些组件造成不可逆转的损害，导致昂贵的维修费用和生产延误。因此，公司在ESD控制措施上投入大量资金来保护其产品。为了防止静电放电，可以实施各种策略。一种常见的方法是使用抗静电材料，如垫子、腕带和袋子。这些材料有助于安全地消散静电，防止其在敏感设备上积累。此外，保持生产环境中的适当湿度水平也可以降低静电放电的可能性。较高的湿度水平增加了空气的导电性，从而使电荷更容易消散。对员工进行关于静电放电危险的培训同样重要。工人应接受有关处理电子元件的最佳实践的教育，例如在触摸敏感设备之前先接地以及使用ESD安全工具。通过在静电放电方面培养意识文化，公司可以显著降低其产品损坏的风险。总之，静电放电是电子和制造领域的一个关键概念。理解其原因和影响对任何参与这些行业的人来说都是至关重要的。通过实施有效的ESD控制措施和教育人员，组织可以保护其电子组件免受静电放电潜在破坏性影响的侵害。随着技术的不断进步和组件变得更加敏感，管理静电放电的重要性只会增加。