laminated antenna

简明释义

迭层天线

英英释义

例句

1.In automotive applications, a laminated antenna is essential for GPS and navigation systems.

在汽车应用中，层压天线对于GPS和导航系统至关重要。

2.Engineers are testing the durability of the laminated antenna in extreme weather conditions.

工程师正在测试层压天线在极端天气条件下的耐久性。

3.The design team is working on a prototype that incorporates a laminated antenna for better performance.

设计团队正在开发一个原型，结合了更好的性能的层压天线。

4.Using a laminated antenna can significantly reduce interference in wireless communication.

使用层压天线可以显著减少无线通信中的干扰。

5.The new smartphone model features a built-in laminated antenna that improves signal reception.

这款新智能手机型号配备了内置的层压天线，提升了信号接收能力。

作文

In the field of telecommunications, the demand for efficient and compact antennas has been on the rise. One innovative solution that has gained attention is the laminated antenna, a type of antenna that utilizes layered materials to enhance performance while minimizing size. The concept of a laminated antenna involves stacking various conductive and dielectric materials in a specific configuration to achieve desired electromagnetic properties. This design not only improves signal strength but also allows for greater flexibility in applications ranging from mobile devices to satellite communications.The primary advantage of a laminated antenna lies in its ability to be integrated into different surfaces without compromising aesthetic appeal or functionality. For instance, manufacturers can embed these antennas within the body of smartphones or tablets, enabling seamless connectivity without bulky protrusions. This integration is particularly important in today's market, where consumers prefer sleek and lightweight devices.Moreover, the laminated antenna offers superior performance characteristics compared to traditional antennas. By carefully selecting the materials used in the lamination process, engineers can optimize the antenna's gain, bandwidth, and radiation pattern. This optimization is crucial for modern applications that require high data rates and reliable connections, such as 5G networks and Internet of Things (IoT) devices.Another significant benefit of the laminated antenna is its durability. The layered construction provides enhanced protection against environmental factors such as moisture, temperature fluctuations, and mechanical stress. This robustness makes it suitable for outdoor applications, including automotive and aerospace industries, where antennas must withstand harsh conditions while maintaining performance.The manufacturing process of a laminated antenna typically involves techniques such as screen printing or etching to create the conductive patterns on the laminate layers. These processes allow for precise control over the antenna's dimensions and characteristics, ensuring that each unit meets specific performance criteria. Additionally, advancements in materials science have led to the development of novel substrates and conductive inks that further enhance the capabilities of laminated antennas.As the demand for wireless communication continues to grow, the role of the laminated antenna will likely expand. Researchers are exploring new designs and configurations to improve efficiency and reduce costs, making this technology even more accessible. Furthermore, the potential for integrating laminated antennas with other technologies, such as energy harvesting and sensing, opens up new possibilities for innovation in the field.In conclusion, the laminated antenna represents a significant advancement in antenna technology, offering a combination of compactness, performance, and durability. As we move towards an increasingly connected world, the importance of effective communication solutions cannot be overstated. The continued development and application of laminated antennas will play a vital role in shaping the future of wireless technology, enabling faster and more reliable connections across various platforms and devices.

在电信领域，对高效和紧凑天线的需求正在上升。一种引起关注的创新解决方案是层压天线，这是一种利用层叠材料来增强性能并最小化尺寸的天线。层压天线的概念涉及将各种导电和介电材料按照特定配置堆叠，以实现所需的电磁特性。这种设计不仅提高了信号强度，而且还允许在从移动设备到卫星通信等应用中具有更大的灵活性。层压天线的主要优势在于其能够无缝集成到不同表面，而不影响美观或功能。例如，制造商可以将这些天线嵌入智能手机或平板电脑的机身中，实现无障碍连接，而不会有笨重的突出部分。这种集成在当今市场中尤为重要，因为消费者更喜欢时尚和轻便的设备。此外，层压天线相较于传统天线提供了更优越的性能特征。通过仔细选择层压过程中使用的材料，工程师可以优化天线的增益、带宽和辐射模式。这种优化对于需要高速数据传输和可靠连接的现代应用至关重要，例如5G网络和物联网（IoT）设备。层压天线的另一个显著好处是其耐用性。分层结构对抗环境因素（如湿气、温度波动和机械应力）提供了增强保护。这种坚固性使其适合户外应用，包括汽车和航空航天工业，在这些领域，天线必须承受恶劣条件，同时保持性能。层压天线的制造过程通常涉及诸如丝网印刷或蚀刻等技术，以在层压层上创建导电图案。这些过程允许对天线的尺寸和特性进行精确控制，确保每个单元符合特定的性能标准。此外，材料科学的进步导致新型基材和导电墨水的发展，进一步增强了层压天线的能力。随着无线通信需求的持续增长，层压天线的作用可能会扩大。研究人员正在探索新的设计和配置，以提高效率并降低成本，使这一技术变得更加普及。此外，将层压天线与其他技术（如能量收集和传感）集成的潜力为该领域的创新开辟了新的可能性。总之，层压天线代表了天线技术的重要进步，提供了紧凑性、性能和耐用性的结合。随着我们向一个日益互联的世界迈进，有效通信解决方案的重要性不容低估。层压天线的持续发展和应用将在塑造无线技术的未来中发挥至关重要的作用，使各种平台和设备之间实现更快、更可靠的连接。