defective semiconductor

简明释义

杂质半导体

英英释义

例句

1.The malfunction was traced back to a defective semiconductor used in the manufacturing process.

故障被追溯到制造过程中使用的一个有缺陷的半导体。

2.The engineer discovered a defective semiconductor in the circuit, which caused the entire system to fail.

工程师在电路中发现了一个有缺陷的半导体，这导致整个系统失败。

3.After replacing the defective semiconductor, the device started functioning normally again.

更换了有缺陷的半导体后，设备再次正常运行。

4.Quality control identified several defective semiconductors during the inspection.

质量控制在检查过程中识别出几个有缺陷的半导体。

5.To ensure product quality, we must test every batch for defective semiconductors.

为了确保产品质量，我们必须对每一批进行测试，以查找有缺陷的半导体。

作文

In the world of electronics, semiconductors play a crucial role in the functioning of various devices. From smartphones to computers, these materials are essential for the operation of modern technology. However, not all semiconductors are created equal. Some may possess flaws that prevent them from functioning properly. These flawed materials are referred to as defective semiconductors (缺陷半导体). Understanding the implications of using defective semiconductors is vital for engineers and manufacturers alike.A defective semiconductor can arise during the manufacturing process due to various reasons, including impurities in the material, errors in the fabrication process, or even environmental factors. For instance, if a semiconductor is exposed to excessive heat or contamination during its production, it may develop defects that compromise its performance. These defects can lead to increased resistance, reduced efficiency, or complete failure of the component.The impact of defective semiconductors on electronic devices can be significant. When incorporated into a circuit, these faulty components can cause malfunctions, leading to erratic behavior or even damage to other parts of the device. For example, in a smartphone, a defective semiconductor might cause the screen to flicker or the battery to drain rapidly. Such issues not only frustrate users but can also result in costly repairs and replacements for manufacturers.Moreover, the presence of defective semiconductors in critical applications, such as medical devices or aerospace technology, can pose serious safety risks. In these cases, the reliability of every component is paramount. Engineers must ensure that the materials used are of the highest quality to prevent any potential failures that could jeopardize lives. The rigorous testing and quality control processes in place aim to identify and eliminate defective semiconductors before they reach the consumer market.To mitigate the risks associated with defective semiconductors, manufacturers invest heavily in research and development. Innovations in fabrication techniques, such as improved purification methods and advanced lithography, have significantly reduced the occurrence of defects. Additionally, the implementation of automated inspection systems allows for real-time monitoring of the production process, enabling quick identification of any anomalies.Furthermore, educating engineers and technicians about the significance of detecting and addressing defective semiconductors is essential. Training programs that emphasize the importance of quality assurance can help cultivate a culture of excellence within organizations. By fostering an environment where employees are vigilant about potential defects, companies can enhance their product reliability and customer satisfaction.In conclusion, while semiconductors are fundamental to the operation of electronic devices, the existence of defective semiconductors poses challenges that must be addressed. From manufacturing to deployment, understanding the nature of these defects is crucial for ensuring the reliability and safety of technology. As the industry continues to evolve, ongoing efforts to improve production processes and educate personnel will be key to minimizing the impact of defective semiconductors on the future of electronics.

在电子产品的世界中，半导体在各种设备的运作中发挥着至关重要的作用。从智能手机到计算机，这些材料是现代科技运作的基础。然而，并非所有半导体都是完美的。有些可能存在缺陷，导致其无法正常工作。这些有缺陷的材料被称为defective semiconductors（缺陷半导体）。理解使用defective semiconductors的影响对于工程师和制造商来说至关重要。defective semiconductors可能在制造过程中由于多种原因产生，包括材料中的杂质、制造过程中的错误，甚至环境因素。例如，如果半导体在生产过程中暴露于过高的温度或污染中，它可能会产生缺陷，从而影响其性能。这些缺陷可能导致电阻增加、效率降低，甚至完全失效。defective semiconductors对电子设备的影响可能是显著的。当这些有缺陷的组件被纳入电路中时，可能会导致故障，引起不稳定的行为，甚至损坏设备的其他部分。例如，在智能手机中，defective semiconductors可能导致屏幕闪烁或电池快速耗尽。这类问题不仅让用户感到沮丧，还可能导致制造商面临昂贵的维修和更换费用。此外，defective semiconductors在医疗设备或航空航天技术等关键应用中的存在可能会带来严重的安全风险。在这些情况下，每个组件的可靠性至关重要。工程师必须确保所使用的材料质量最高，以防止任何潜在的故障危及生命。严格的测试和质量控制流程旨在在产品进入消费市场之前识别并消除defective semiconductors。为了减轻与defective semiconductors相关的风险，制造商在研发上投入巨资。制造技术的创新，如改进的净化方法和先进的光刻技术，显著减少了缺陷的发生。此外，自动化检测系统的实施允许实时监控生产过程，使得能够快速识别任何异常。此外，教育工程师和技术人员了解检测和解决defective semiconductors的重要性也至关重要。强调质量保证重要性的培训项目可以帮助企业内部培养卓越文化。通过营造一个员工对潜在缺陷保持警惕的环境，公司可以提高产品的可靠性和客户满意度。总之，尽管半导体是电子设备运作的基础，但defective semiconductors的存在给我们带来了必须解决的挑战。从制造到部署，理解这些缺陷的性质对于确保技术的可靠性和安全性至关重要。随着行业的不断发展，持续改善生产流程和教育人员的努力将是减少defective semiconductors对未来电子产品影响的关键。