keep-alive electrode

简明释义

维弧电极

英英释义

例句

1.A malfunction in the keep-alive electrode can lead to unexpected shutdowns of the device.

如果保持电极发生故障，可能会导致设备意外关闭。

2.In the battery management system, the keep-alive electrode ensures that the device remains powered even when in standby mode.

在电池管理系统中，保持电极确保设备在待机模式下仍然有电。

3.The design of the keep-alive electrode is crucial for the efficiency of the entire system.

设计保持电极对整个系统的效率至关重要。

4.The medical device relies on a keep-alive electrode to maintain its functionality during long-term use.

该医疗设备依赖于一个保持电极来维持其在长期使用中的功能。

5.The researchers tested various materials for the keep-alive electrode to improve its longevity.

研究人员测试了多种材料以改进保持电极的耐久性。

作文

In the realm of modern technology, the term keep-alive electrode holds significant importance, particularly in the field of biomedical devices. These electrodes are designed to maintain continuous electrical contact with biological tissues, ensuring the proper functioning of implanted devices such as pacemakers or neural stimulators. The concept of a keep-alive electrode can be understood as a crucial component that prevents the loss of signal integrity, which is vital for the effective operation of these medical instruments.The primary function of a keep-alive electrode is to provide a stable and reliable connection between the device and the tissue it interacts with. This is essential because any disruption in this connection can lead to severe consequences, including device malfunction or even patient harm. For instance, in the case of cardiac pacemakers, the keep-alive electrode ensures that the device can continuously monitor the heart's activity and deliver necessary electrical impulses to regulate the heartbeat. Without such electrodes, the risk of disconnection increases, potentially leading to life-threatening situations.Moreover, the materials used in the construction of keep-alive electrodes are carefully selected to minimize tissue reaction and ensure biocompatibility. This means that the materials must not provoke an immune response from the body, which could lead to inflammation or rejection of the implanted device. Researchers and engineers are constantly exploring new materials and designs to enhance the performance of keep-alive electrodes, aiming for longer-lasting and more efficient solutions.In addition to their role in traditional medical devices, keep-alive electrodes are also being explored in advanced applications such as brain-computer interfaces (BCIs). These systems allow for direct communication between the brain and external devices, enabling individuals with mobility impairments to control prosthetic limbs or computer systems through thought alone. In this context, the keep-alive electrode serves as a bridge between neural activity and technological output, facilitating seamless interaction between the human brain and machines.As technology continues to evolve, the significance of keep-alive electrodes will likely increase. Innovations in nanotechnology and materials science promise to enhance the functionality and longevity of these electrodes, potentially leading to breakthroughs in various medical and technological fields. For example, the integration of smart materials that can adapt to changing physiological conditions could revolutionize how keep-alive electrodes operate, providing real-time feedback and adjustments to optimize performance.In conclusion, the keep-alive electrode is a fundamental element in the interface between technology and biology. Its ability to maintain a stable connection between medical devices and biological tissues is critical for the success of numerous applications in healthcare. As research progresses and new technologies emerge, the role of keep-alive electrodes will undoubtedly expand, paving the way for innovative solutions that improve patient outcomes and enhance the quality of life for individuals with medical needs.

在现代技术的领域中，术语keep-alive electrode具有重要意义，尤其是在生物医学设备领域。这些电极旨在与生物组织保持持续的电气接触，确保植入设备（如心脏起搏器或神经刺激器）的正常功能。keep-alive electrode的概念可以理解为一个关键组件，它防止信号完整性的丧失，这对于这些医疗仪器的有效操作至关重要。keep-alive electrode的主要功能是提供稳定可靠的连接，连接设备与其交互的组织。这一点至关重要，因为任何这种连接的中断都可能导致严重后果，包括设备故障甚至对患者的伤害。例如，在心脏起搏器的情况下，keep-alive electrode确保设备能够持续监测心脏活动，并提供必要的电冲动来调节心跳。如果没有这样的电极，断开连接的风险就会增加，从而可能导致危及生命的情况。此外，构建keep-alive electrodes所使用的材料经过仔细选择，以最小化组织反应并确保生物相容性。这意味着这些材料不能引发身体的免疫反应，否则可能导致炎症或植入设备的排斥。研究人员和工程师们一直在不断探索新材料和设计，以增强keep-alive electrodes的性能，力求提供更持久和更高效的解决方案。除了在传统医疗设备中的作用外，keep-alive electrodes还在脑机接口（BCI）等先进应用中得到探索。这些系统允许大脑与外部设备之间直接通信，使行动障碍者能够通过思想控制假肢或计算机系统。在这种情况下，keep-alive electrode充当神经活动与技术输出之间的桥梁，促进人脑与机器之间的无缝互动。随着技术的不断发展，keep-alive electrodes的重要性可能会增加。纳米技术和材料科学的创新有望增强这些电极的功能和耐用性，可能导致医疗和技术领域的突破。例如，集成能够适应变化生理条件的智能材料可能会彻底改变keep-alive electrodes的操作方式，提供实时反馈和调整以优化性能。总之，keep-alive electrode是技术与生物学之间接口的基本元素。它维持医疗设备与生物组织之间稳定连接的能力对于许多医疗应用的成功至关重要。随着研究的进展和新技术的出现，keep-alive electrodes的角色无疑将扩大，为改善患者结果和提高有医疗需求的个人生活质量的创新解决方案铺平道路。