modulators

简明释义

英[ˈmɒd.jʊ.leɪ.təz]美[ˈmɑː.dʒə.leɪ.tərz]

n. [电子]调节器（modulator 的复数）

英英释义

单词用法

同义词

反义词

例句

1.Beyond that it becomes less clear; the modulators of incretin axis appear to be promising.

除此以外的结果不够明确。肠促胰岛素调节剂变得很有希望。

2.Two sidebands are filtered into two paths and are modulated by two phase modulators with complementary data.

信号两个边带分成两路分别由两个相位调制器用相反数据进行调制。

3.Vehicle twin- photoelectrical pointing system mainly consists of reflex light-tubes, a autocollimation theodolite and modulators.

车载双联光电瞄准系统主要由折转光管、自准直经纬仪和相应的调制器组成。

4.Such targets are called allosteric modulators.

这样的靶称为别构调节物。

5.Among the most frequently reported drugs associated with deaths there was a disproportionately high number of pain medications and immune system modulators.

在最寻常的药物相关死亡的报道中，疼痛药和免疫系统调节药的报道数目不成比例的高。

6.Multi-order modulators shape the quantization noise even harder to higher frequencies.

多阶调节器在更高频率形成更大的量化噪声。

7.The explosively-driven flux compression generators (FCGs) are always used to drive pulse modulators, and high power pulses can be generated on the diodes.

爆磁压缩发生器常用来驱动脉冲调制器，在二极管上产生高功率短脉冲。

8.Integrated optical mode converter is an important component of optical switches, modulators and filters.

集成光学模转换器是光开关，光调制器，光学滤波器的重要组成部分。

9.Audio modulators can change the frequency of sound waves.

音频调制器可以改变声波的频率。

10.In telecommunications, modulators are essential for converting signals.

在电信中，调制器对于信号转换至关重要。

11.The team is studying the effects of different modulators on neurotransmitter release.

团队正在研究不同调节剂对神经递质释放的影响。

12.The researchers developed new modulators to enhance the drug's effectiveness.

研究人员开发了新的调节剂以增强药物的有效性。

13.Protein modulators can influence cellular responses in various ways.

蛋白质调节剂可以以多种方式影响细胞反应。

作文

In the realm of science and technology, the term modulators refers to devices or substances that modify or control a signal or process. These modulators play a crucial role in various fields, including telecommunications, biomedical engineering, and even environmental science. Understanding how modulators work can lead to significant advancements in these areas, potentially improving the quality of life for many people.For instance, in telecommunications, modulators are essential for transmitting information over long distances. They convert digital data into analog signals, allowing for efficient communication across networks. Without modulators, our ability to connect through the internet, mobile phones, and other forms of electronic communication would be severely hindered. The development of more advanced modulators has enabled faster data transfer rates, which is vital in our increasingly digital world.In the field of biomedical engineering, modulators can refer to drugs or therapies that alter biological processes. For example, certain medications act as modulators by enhancing or inhibiting specific pathways in the body. This capability is particularly important in treating diseases like cancer or autoimmune disorders, where precise control over biological functions can lead to better outcomes. Researchers are continuously exploring new modulators that can target specific cellular mechanisms, paving the way for personalized medicine.Moreover, in environmental science, modulators can refer to factors that influence ecological systems. For instance, certain species can act as modulators in their habitats by controlling population dynamics or nutrient cycles. Understanding these relationships helps scientists develop strategies for conservation and biodiversity preservation. By identifying key modulators within ecosystems, we can create more effective policies to protect our environment.The significance of modulators extends beyond technical applications; they also embody the principle of control and adaptability in various systems. Whether in engineering, medicine, or ecology, the ability to modulate responses is crucial for achieving desired outcomes. As we advance technologically and scientifically, the exploration of new modulators will likely lead to innovative solutions to complex problems.In conclusion, modulators are integral components in multiple disciplines, facilitating communication, enhancing health treatments, and maintaining ecological balance. Their ability to modify and control processes makes them invaluable in our quest for progress. As we continue to study and develop new modulators, we open doors to possibilities that can transform our world, making it a better place for future generations. Understanding the role of modulators not only enriches our knowledge but also empowers us to harness their potential for positive change.

在科学和技术的领域中，术语modulators指的是修改或控制信号或过程的设备或物质。这些modulators在多个领域中发挥着至关重要的作用，包括电信、生物医学工程，甚至环境科学。理解modulators的工作原理可以在这些领域带来重大的进步，潜在地改善许多人的生活质量。例如，在电信领域，modulators对于长距离传输信息至关重要。它们将数字数据转换为模拟信号，从而允许在网络上有效通信。如果没有modulators，我们通过互联网、手机和其他电子通信形式连接的能力将受到严重阻碍。更先进的modulators的发展使得数据传输速度更快，这在我们日益数字化的世界中至关重要。在生物医学工程领域，modulators可以指改变生物过程的药物或疗法。例如，某些药物通过增强或抑制身体中的特定途径作为modulators。这种能力在治疗癌症或自身免疫性疾病等疾病时尤为重要，因为对生物功能的精确控制可以导致更好的结果。研究人员不断探索新的modulators，以便针对特定的细胞机制，为个性化医学铺平道路。此外，在环境科学中，modulators可以指影响生态系统的因素。例如，某些物种可以通过控制种群动态或营养循环在其栖息地中充当modulators。理解这些关系有助于科学家制定保护和生物多样性保护的策略。通过识别生态系统中的关键modulators，我们可以制定更有效的政策来保护我们的环境。modulators的重要性超越了技术应用；它们还体现了在各种系统中控制和适应的原则。无论是在工程、医学还是生态学中，调节反应的能力对于实现期望的结果至关重要。随着我们在技术和科学上的进步，对新modulators的探索可能会导致解决复杂问题的创新方案。总之，modulators是多个学科中的重要组成部分，促进了通信、提升了健康治疗，并维护了生态平衡。它们修改和控制过程的能力使它们在我们追求进步的过程中不可或缺。随着我们继续研究和开发新的modulators，我们为未来几代人打开了转变我们世界的可能性。理解modulators的角色不仅丰富了我们的知识，还使我们能够利用它们的潜力带来积极的变化。