holding voltage

简明释义

吸持电压

英英释义

例句

1.The circuit requires a consistent holding voltage 保持电压 to ensure proper operation.

电路需要一个稳定的holding voltage 保持电压以确保正常运行。

2.Engineers often adjust the holding voltage 保持电压 to optimize performance.

工程师通常调整holding voltage 保持电压以优化性能。

3.During testing, the holding voltage 保持电压 must be monitored closely to prevent damage.

在测试过程中，必须密切监测holding voltage 保持电压以防止损坏。

4.An insufficient holding voltage 保持电压 can lead to circuit instability.

不足的holding voltage 保持电压可能导致电路不稳定。

5.The power supply should provide a stable holding voltage 保持电压 for all connected devices.

电源应为所有连接的设备提供稳定的holding voltage 保持电压。

作文

In the realm of electronics and electrical engineering, understanding various concepts is crucial for both professionals and enthusiasts. One such concept that often comes up is holding voltage. This term refers to the specific voltage level that must be maintained in order to keep a device or circuit in a stable state. Essentially, it is the minimum voltage required to ensure that a component continues to operate correctly without dropping out of its desired state. For example, in the context of relays or solenoids, the holding voltage is the voltage that must be applied to keep the relay or solenoid engaged after it has been activated.The importance of holding voltage cannot be overstated, especially when it comes to designing circuits that are both efficient and reliable. If the voltage falls below this critical level, the device may disengage or reset, leading to potential failures in the overall system. This is particularly relevant in applications such as automated machinery, where precise control is necessary for operational safety and efficiency. Furthermore, understanding the holding voltage is essential for troubleshooting electrical systems. When diagnosing issues, technicians often measure the voltage at various points in the circuit to determine if it meets the required levels. If they find that the voltage is lower than the specified holding voltage, it could indicate a fault in the power supply, wiring, or the component itself. Therefore, knowledge of this concept is vital for maintaining the integrity of electronic systems.In addition to practical applications, the holding voltage also plays a significant role in energy efficiency. By ensuring that devices only consume the necessary amount of power to maintain their operation, engineers can design systems that minimize waste and reduce energy costs. For instance, in lighting systems using LED technology, designers often calculate the holding voltage to optimize performance while keeping energy consumption low. Moreover, the concept of holding voltage extends beyond just individual components; it can also apply to entire systems. For example, in power distribution networks, maintaining a steady voltage level is critical for ensuring that all connected devices function properly. Voltage fluctuations can lead to equipment damage or inefficient operation, making it essential for engineers to monitor and control holding voltage across the network.In summary, the term holding voltage encapsulates a fundamental aspect of electrical engineering that influences both the performance and reliability of electronic devices. From keeping relays engaged to optimizing energy consumption, the significance of this concept is far-reaching. As technology continues to evolve, a solid understanding of holding voltage will remain a key component of successful design, troubleshooting, and maintenance in the field of electronics. This knowledge not only enhances the effectiveness of engineers but also contributes to the advancement of innovative solutions in our increasingly electrified world.

在电子和电气工程领域，理解各种概念对于专业人士和爱好者至关重要。其中一个经常出现的概念是保持电压。这个术语指的是必须维持的特定电压水平，以保持设备或电路处于稳定状态。基本上，这是确保组件继续正确运行而不掉出其所需状态的最低电压。例如，在继电器或电磁阀的上下文中，保持电压是必须施加的电压，以保持继电器或电磁阀在激活后处于连接状态。保持电压的重要性不容小觑，特别是在设计高效且可靠的电路时。如果电压低于这个临界水平，设备可能会断开或重置，从而导致整体系统潜在的故障。这在自动化机械等应用中尤为相关，因为精确控制对于操作安全和效率至关重要。此外，了解保持电压对于故障排除电气系统也至关重要。在诊断问题时，技术人员通常会测量电路中各个点的电压，以确定其是否达到所需水平。如果他们发现电压低于指定的保持电压，这可能表明电源、接线或组件本身存在故障。因此，对这一概念的了解对于维护电子系统的完整性至关重要。除了实际应用外，保持电压在能源效率方面也发挥着重要作用。通过确保设备仅消耗维持其操作所需的电力，工程师可以设计出最小化浪费和降低能源成本的系统。例如，在使用LED技术的照明系统中，设计师通常会计算保持电压以优化性能，同时保持低能耗。此外，保持电压的概念不仅适用于单个组件；它也可以适用于整个系统。例如，在电力分配网络中，维持稳定的电压水平对于确保所有连接设备正常工作至关重要。电压波动可能导致设备损坏或效率低下，因此工程师必须监测和控制网络中的保持电压。总之，保持电压这一术语概括了电气工程的一个基本方面，影响着电子设备的性能和可靠性。从保持继电器连接到优化能耗，这一概念的重要性深远。随着技术的不断发展，对保持电压的深入理解将继续成为成功设计、故障排除和维护电子领域的关键组成部分。这一知识不仅增强了工程师的有效性，也促进了我们日益电气化的世界中创新解决方案的发展。