low power
简明释义
低功率
英英释义
例句
1.When the signal is weak, the phone automatically goes into low power state.
当信号微弱时,手机会自动进入低功耗状态。
2.Using low power settings can extend the lifespan of your electronics.
使用低功耗设置可以延长电子设备的使用寿命。
3.The robot operates efficiently in low power mode during long tasks.
在长时间任务中,机器人以低功耗模式高效运行。
4.This light bulb is designed to work on low power, making it energy-efficient.
这款灯泡设计为在低功耗下工作,使其节能高效。
5.The device switches to low power mode to conserve battery life.
该设备切换到低功耗模式以节省电池寿命。
作文
In today's fast-paced technological world, the concept of low power (低功耗) has gained significant attention across various industries. As devices become increasingly sophisticated, the demand for energy-efficient solutions is paramount. The term low power refers to the ability of an electronic device or system to operate effectively while consuming minimal energy. This characteristic is especially crucial in mobile devices, wearables, and IoT (Internet of Things) applications, where battery life is a critical factor for user satisfaction.One of the primary advantages of low power (低功耗) technology is its contribution to sustainability. By reducing energy consumption, manufacturers can help minimize the environmental impact of their products. For instance, devices that utilize low power (低功耗) components not only extend battery life but also decrease the overall carbon footprint associated with energy production. This aligns with global efforts to combat climate change and promotes a more sustainable future.Moreover, low power (低功耗) technologies enhance the performance of devices. In mobile phones, laptops, and other portable gadgets, prolonged battery life allows users to stay connected without the constant need for recharging. This convenience is particularly beneficial for individuals who rely on their devices for work, communication, and entertainment during travel or long hours away from power sources.The implementation of low power (低功耗) techniques often involves innovative design strategies. Engineers and designers must consider various factors, such as the choice of materials, circuit design, and software optimization. For example, using advanced semiconductor materials can lead to lower energy consumption while maintaining high performance levels. Additionally, optimizing software algorithms to reduce processing time can significantly impact the overall power usage of a device.In the realm of IoT, low power (低功耗) technology is particularly vital. Many IoT devices are deployed in remote locations where access to power sources is limited. Therefore, these devices must be designed to operate efficiently over extended periods, often relying on batteries. By incorporating low power (低功耗) solutions, manufacturers can create devices that last for years without requiring maintenance or battery replacement, making them ideal for applications such as environmental monitoring, smart agriculture, and home automation.Furthermore, the rise of renewable energy sources has created new opportunities for low power (低功耗) technologies. Devices that consume less energy can be powered by solar panels, wind turbines, or other sustainable energy solutions. This synergy between low power (低功耗) devices and renewable energy can facilitate the development of smart grids and contribute to energy independence.In conclusion, the significance of low power (低功耗) technology cannot be overstated. As we move towards a more energy-conscious society, the integration of low power (低功耗) solutions will play a pivotal role in shaping the future of electronics. From enhancing device performance to promoting sustainability, the benefits of low power (低功耗) innovations are clear. It is essential for both consumers and manufacturers to embrace this trend, ensuring that we create a more efficient and environmentally friendly technological landscape.
在当今快速发展的科技世界中,低功耗这一概念在各个行业中引起了广泛关注。随着设备变得越来越复杂,对节能解决方案的需求变得至关重要。术语低功耗指的是电子设备或系统能够在消耗最小能量的情况下有效运行。这一特性在移动设备、可穿戴设备和物联网(IoT)应用中尤为重要,因为电池寿命是用户满意度的关键因素。低功耗技术的主要优势之一是它对可持续发展的贡献。通过减少能耗,制造商可以帮助降低其产品对环境的影响。例如,利用低功耗组件的设备不仅延长了电池寿命,还减少了与能源生产相关的整体碳足迹。这与全球应对气候变化的努力相一致,并促进了更可持续的未来。此外,低功耗技术还增强了设备的性能。在手机、笔记本电脑和其他便携式设备中,延长的电池寿命使用户能够在不需要频繁充电的情况下保持连接。这种便利性对于依赖设备进行工作、沟通和娱乐的个人尤其有益,特别是在旅行或长时间远离电源的情况下。实施低功耗技术通常涉及创新的设计策略。工程师和设计师必须考虑多种因素,例如材料选择、电路设计和软件优化。例如,使用先进的半导体材料可以在保持高性能水平的同时降低能量消耗。此外,优化软件算法以减少处理时间也可以显著影响设备的整体功耗。在物联网领域,低功耗技术尤为重要。许多物联网设备部署在远程位置,电源接入有限。因此,这些设备必须被设计为在长时间内高效运行,通常依赖于电池。通过结合低功耗解决方案,制造商可以创建在多年内无需维护或更换电池的设备,使其非常适合环境监测、智能农业和家庭自动化等应用。此外,可再生能源的兴起为低功耗技术创造了新的机会。消耗较少能量的设备可以由太阳能电池板、风力涡轮机或其他可持续能源解决方案供电。这种低功耗设备与可再生能源之间的协同作用,可以促进智能电网的发展,并有助于实现能源独立。总之,低功耗技术的重要性不容小觑。随着我们朝着一个更加注重能源的社会迈进,低功耗解决方案的整合将在塑造电子产品的未来中发挥关键作用。从增强设备性能到促进可持续发展,低功耗创新的好处显而易见。消费者和制造商都应拥抱这一趋势,确保我们创造出一个更高效、更环保的科技环境。
