amps
简明释义
n. 安培数
英英释义
单词用法
运算放大器 |
同义词
安培 | 该电路需要10安培才能正常工作。 | ||
电流 | 该设备的电流为5安培。 |
反义词
减少 | 当你远离声音源时,噪音会减少。 | ||
减轻 | 这种药物显著减轻了疼痛。 |
例句
1.Circular saw: Look for 12 amps minimum, to cut metal and concrete with the appropriate blade.
圆锯:查找最低限度12安培,辅以合适的刀片用于切割金属和混凝土。
2.Books are the ever-burning I amps of accumulated wisdom.
书籍是积累智慧的明灯。
3.Analysed the frequence compensation and noise response of the Op Amps extent.
对电路的频率补偿和噪声性能进行了一定的分析。
4.The output of amps will be sufficient enough to charge the batteries of the boat.
太阳能板所提供的电流安培足以满足这艘船的充电需求。
5.When it was attached to the rat's heart, the nano-generator produced about 30 pico-amps at about three millivolts.
当它附着在大鼠心脏时,纳米发电机产生了每3毫伏上下大约30微微安培的电流。
6.I've collected these st amps for you.
我帮你收集了这些邮票。
7.The peak anode current is a massive 250 Amps.
阳极电流的峰值是一个巨大的250安培。
8.The solid state control operates a miniature contactor that will power up to 20 amps at 120 or 240 volts.
固体电路控制操作一个微型接触器,将提供高达120或240伏,20安培电力。
9.We need to check the circuit to ensure it can safely carry 15 amps 安培.
我们需要检查电路以确保它可以安全地承载15 amps 安培。
10.The power supply provides 10 amps 安培 of current.
电源提供10 amps 安培 的电流。
11.This battery can deliver 30 amps 安培 for a short duration.
这个电池可以在短时间内提供30 amps 安培 的电流。
12.My new amplifier can handle up to 50 amps 安培 without overheating.
我的新放大器可以承受高达50 amps 安培 而不会过热。
13.The electrician recommended using wires rated for at least 20 amps 安培.
电工建议使用额定至少为20 amps 安培 的电线。
作文
In the world of electronics, understanding various terms and measurements is crucial for both professionals and enthusiasts alike. One such term that frequently comes up is amps, which is short for amperes. The concept of amps is fundamental to grasping how electricity flows through circuits. Simply put, amps measure the flow of electric current. The more amps there are, the greater the amount of electricity flowing through a conductor at any given moment.To illustrate this, consider the analogy of water flowing through a pipe. In this scenario, the amps represent the volume of water that passes through the pipe per second. Just as a wider pipe allows more water to flow, a thicker wire can carry more amps. This understanding is essential for anyone working with electrical systems, as it helps in determining the right components needed for a particular application.For example, when designing a circuit, one must consider the amps required by each component. If a device operates at a higher voltage, it may require fewer amps to function effectively. Conversely, devices that run on lower voltages may need more amps to achieve the same power output. This relationship is captured in Ohm’s Law, which states that Voltage (V) = Current (I) × Resistance (R). Here, current is measured in amps, making it a critical factor in circuit design.Moreover, understanding amps is vital for safety. Electrical systems are designed to handle a specific amount of amps; exceeding this limit can lead to overheating and potentially cause fires. Therefore, electricians and engineers must calculate the expected amps in a circuit to ensure that all components are rated appropriately. This includes selecting fuses and circuit breakers that can handle the maximum expected amps without tripping unnecessarily.In practical applications, different devices have varying amps ratings. For instance, a standard light bulb may draw around 0.5 to 1 amp, while larger appliances like refrigerators or air conditioners can draw several amps. Understanding these ratings allows consumers to make informed decisions about their energy usage and to avoid overloading circuits in their homes.Additionally, with the rise of renewable energy sources, the importance of understanding amps has only grown. Solar panels, for instance, are often rated by their output in amps. When installing a solar energy system, homeowners must consider how many amps their household consumes to determine the size of the solar array needed to meet their energy demands. This calculation is crucial for ensuring that the system can provide enough power without exceeding its amps capacity.In conclusion, the term amps plays a pivotal role in the field of electronics and electrical engineering. Whether it's for designing circuits, ensuring safety, or optimizing energy consumption, a solid understanding of amps is essential. As technology continues to evolve, so too will the applications and implications of amps, making it an ever-relevant topic for anyone involved in the electrical industry.
在电子产品的世界中,理解各种术语和测量对于专业人士和爱好者来说都是至关重要的。其中一个经常出现的术语是安培,它是安培的缩写。安培的概念对于理解电流如何在电路中流动是基础性的。简单来说,安培测量电流的流动。安培越多,在任何给定时刻通过导体的电量就越大。为了说明这一点,可以考虑水流通过管道的比喻。在这个场景中,安培代表每秒钟通过管道的水量。正如更宽的管道允许更多的水流动一样,更粗的电线可以承载更多的安培。这种理解对于任何从事电气系统工作的人来说都是必不可少的,因为它有助于确定特定应用所需的正确组件。例如,在设计电路时,必须考虑每个组件所需的安培。如果设备在较高的电压下运行,它可能需要更少的安培才能有效工作。相反,运行在较低电压的设备可能需要更多的安培才能实现相同的功率输出。这种关系在欧姆定律中得到了体现,该定律指出电压(V)= 电流(I)× 电阻(R)。在这里,电流以安培为单位测量,使其成为电路设计中的关键因素。此外,了解安培对于安全至关重要。电气系统被设计为处理特定数量的安培;超过此限制可能导致过热并可能引发火灾。因此,电工和工程师必须计算电路中预期的安培以确保所有组件的额定值适当。这包括选择能够处理最大预期安培而不会不必要跳闸的保险丝和断路器。在实际应用中,不同的设备有不同的安培额定值。例如,标准灯泡的电流约为0.5到1安培,而大型电器如冰箱或空调则可能需要多个安培。了解这些额定值使消费者能够对其能耗做出明智的决定,并避免在家中超负荷电路。此外,随着可再生能源的兴起,理解安培的重要性只增不减。例如,太阳能电池板通常按其输出的安培进行评级。在安装太阳能系统时,房主必须考虑他们家庭的能耗,以确定所需的太阳能阵列大小,以满足他们的能源需求。这一计算对于确保系统能够提供足够的电力而不超过其安培容量至关重要。总之,术语安培在电子和电气工程领域发挥着关键作用。无论是设计电路、确保安全,还是优化能耗,扎实理解安培都是必不可少的。随着技术的不断发展,安培的应用和影响也将不断演变,使其成为任何参与电气行业的人都必须关注的话题。