direct transmission system
简明释义
1. 直接发送系统; 2. 直接传胔系统;
英英释义
例句
1.In telecommunications, a direct transmission system can reduce latency significantly.
在电信中,直接传输系统可以显著减少延迟。
2.The new factory has implemented a direct transmission system to enhance efficiency.
新工厂实施了一个直接传输系统以提高效率。
3.To minimize signal loss, we opted for a direct transmission system in our setup.
为了最小化信号损失,我们在设置中选择了直接传输系统。
4.The direct transmission system used in the new model allows for real-time updates.
新模型中使用的直接传输系统允许实时更新。
5.Our research indicates that a direct transmission system improves data integrity.
我们的研究表明,直接传输系统提高了数据完整性。
作文
In today's rapidly evolving technological landscape, the concept of a direct transmission system has gained significant importance. A direct transmission system refers to a method of transferring information or energy directly from one point to another without any intermediate steps or conversions. This system is particularly beneficial in various fields, including telecommunications, data transfer, and even in mechanical systems where power needs to be transmitted efficiently.One of the most prominent examples of a direct transmission system can be found in fiber optic communication. Fiber optics utilize light to transmit data over long distances with minimal loss. In this case, the data is encoded in light pulses that travel directly through the optical fibers, ensuring high-speed and high-capacity transmission. This method contrasts with traditional copper wire systems, where signals often degrade over distance and require amplifiers or repeaters to maintain quality.Moreover, in the context of mechanical engineering, a direct transmission system can refer to gear systems where power is transferred directly from the engine to the wheels of a vehicle. This direct connection eliminates the need for complex mechanisms like clutches or torque converters, resulting in improved efficiency and responsiveness. For example, many electric vehicles use a direct transmission system that allows for instantaneous power delivery, enhancing acceleration and overall driving experience.The advantages of utilizing a direct transmission system are numerous. Firstly, it often leads to increased efficiency. By eliminating intermediate processes, energy loss is minimized, allowing for more effective use of resources. Secondly, such systems tend to be simpler and more reliable. With fewer components involved, there is less that can go wrong, which reduces maintenance costs and downtime.However, it is essential to consider the limitations of direct transmission systems. While they are efficient, they may not always be suitable for every application. For instance, in situations where variable speed control is necessary, a direct system might fall short. In these cases, more complex transmission systems that allow for adjustments in speed and torque may be required.In conclusion, the direct transmission system represents a crucial advancement in both communication and mechanical design. Its ability to transmit data and power efficiently makes it an attractive option for modern applications. As technology continues to advance, we can expect to see even more innovative uses of direct transmission systems, further enhancing our capabilities in various domains. Understanding and implementing these systems will undoubtedly play a critical role in shaping the future of technology and engineering.
在当今迅速发展的技术环境中,直接传输系统的概念变得越来越重要。直接传输系统指的是一种将信息或能量直接从一个点传输到另一个点的方法,而不需要任何中间步骤或转换。这种系统在多个领域中尤其有利,包括电信、数据传输,甚至在机械系统中,能量需要高效传递。一个显著的例子是光纤通信。光纤利用光来在长距离内传输数据,损失极小。在这种情况下,数据以光脉冲的形式编码,直接通过光纤传输,确保高速和大容量的传输。这种方法与传统的铜线系统形成对比,后者的信号通常会随着距离的增加而衰减,需要放大器或中继器来保持质量。此外,在机械工程的背景下,直接传输系统可以指动力直接从发动机传递到车辆车轮的齿轮系统。这种直接连接消除了复杂机制(如离合器或扭矩转换器)的需求,从而提高了效率和响应性。例如,许多电动车使用直接传输系统,允许瞬时功率输出,增强加速能力和整体驾驶体验。使用直接传输系统的优点是众多的。首先,它通常导致效率提高。通过消除中间过程,能量损失最小化,从而更有效地利用资源。其次,这种系统往往更简单且更可靠。由于涉及的组件较少,出故障的可能性也减少,从而降低了维护成本和停机时间。然而,考虑直接传输系统的局限性也是至关重要的。尽管它们高效,但并不总是适合每个应用场景。例如,在需要可变速度控制的情况下,直接系统可能无法满足要求。在这些情况下,可能需要更复杂的传输系统,以便进行速度和扭矩的调整。总之,直接传输系统代表了通信和机械设计中的关键进步。其高效传输数据和能量的能力使其成为现代应用的有吸引力的选择。随着技术的不断进步,我们可以期待看到直接传输系统的更多创新用途,进一步提升我们在各个领域的能力。理解和实施这些系统无疑将在塑造未来技术和工程方面发挥关键作用。
