transistorized voltmeter

简明释义

晶体管伏特计

英英释义

例句

1.When troubleshooting electrical devices, a transistorized voltmeter can help identify faulty components.

在排查电气设备故障时，晶体管电压表可以帮助识别故障组件。

2.The technician used a transistorized voltmeter to measure the voltage across the circuit.

技术员使用了一个晶体管电压表来测量电路中的电压。

3.For accurate readings, the transistorized voltmeter is preferred over traditional analog meters.

为了获得准确的读数，通常选择晶体管电压表而不是传统的模拟表。

4.The transistorized voltmeter provides a digital readout, making it easier to interpret results.

该晶体管电压表提供数字读数，使结果更易于解读。

5.In laboratory experiments, a transistorized voltmeter is essential for precise voltage measurements.

在实验室实验中，晶体管电压表对于精确电压测量至关重要。

作文

In the world of electronics, the precision and reliability of measurements are paramount. One instrument that has revolutionized the way we measure electrical voltage is the transistorized voltmeter. This device utilizes transistors to amplify and display voltage readings with remarkable accuracy. Unlike traditional analog voltmeters, which rely on mechanical components and can be affected by various external factors, the transistorized voltmeter offers a more stable and consistent performance, making it an essential tool for engineers and technicians alike.The transistorized voltmeter operates on the principle of using transistors as amplifying devices. Transistors, being semiconductor devices, have the ability to control current flow and amplify weak signals. This capability allows the transistorized voltmeter to detect even the smallest changes in voltage, providing users with precise measurements. Furthermore, because transistors have a much faster response time compared to traditional components, the transistorized voltmeter can provide real-time readings, which is crucial in many applications such as circuit testing and troubleshooting.One of the most significant advantages of the transistorized voltmeter is its compact size and portability. Traditional voltmeters were often bulky and difficult to transport, but advancements in technology have allowed for the miniaturization of electronic components. As a result, modern transistorized voltmeters can easily fit into a technician’s toolkit, making them accessible for fieldwork and on-site measurements. This portability does not come at the expense of functionality; in fact, many transistorized voltmeters are equipped with digital displays and additional features such as data logging, which enhance their usability.Moreover, the durability of the transistorized voltmeter is another factor that contributes to its popularity. Unlike their analog counterparts, which can suffer from wear and tear due to moving parts, transistorized voltmeters are solid-state devices. This means they are less prone to damage and can withstand harsher environmental conditions. As a result, they are often used in industrial settings where reliability is critical.In addition to their practical benefits, transistorized voltmeters also play a vital role in education and research. Students learning about electronics can benefit from using these devices to understand concepts such as voltage, current, and resistance. The clarity of digital displays makes it easier for learners to interpret data, fostering a deeper understanding of electrical principles. Researchers, on the other hand, utilize transistorized voltmeters in experiments that require precise voltage measurements, thereby contributing to advancements in technology and science.In conclusion, the transistorized voltmeter represents a significant advancement in the field of electrical measurement. Its ability to provide accurate, real-time voltage readings in a compact and durable format has made it an indispensable tool for professionals and students alike. As technology continues to evolve, it is likely that we will see further innovations in the design and functionality of transistorized voltmeters, solidifying their place in the future of electronics. Understanding and mastering the use of the transistorized voltmeter is essential for anyone involved in the field of electronics, as it enhances both practical skills and theoretical knowledge.

在电子世界中，测量的精确性和可靠性至关重要。一个彻底改变我们测量电压方式的仪器是晶体管电压表。该设备利用晶体管来放大和显示电压读数，具有卓越的精确度。与依赖机械部件的传统模拟电压表不同，传统电压表容易受到各种外部因素的影响，而晶体管电压表则提供了更稳定和一致的性能，使其成为工程师和技术人员不可或缺的工具。晶体管电压表的工作原理是使用晶体管作为放大器。晶体管作为半导体器件，能够控制电流流动并放大微弱信号。这种能力使得晶体管电压表能够检测到电压的微小变化，从而为用户提供精确的测量结果。此外，由于晶体管的响应时间远快于传统组件，晶体管电压表能够提供实时读数，这在电路测试和故障排除等许多应用中至关重要。晶体管电压表的一个重大优势是其紧凑的尺寸和便携性。传统电压表通常笨重且难以运输，但技术的进步使电子元件的小型化成为可能。因此，现代晶体管电压表可以轻松放入技术人员的工具箱中，使其在现场工作和现场测量时变得更加方便。这种便携性并没有以牺牲功能为代价；事实上，许多晶体管电压表配备数字显示屏和数据记录等附加功能，增强了其可用性。此外，晶体管电压表的耐用性也是其受欢迎的另一个因素。与因移动部件而可能遭受磨损的模拟电压表不同，晶体管电压表是固态设备。这意味着它们不易损坏，并且能够承受更严酷的环境条件。因此，它们通常用于工业环境中，在这些环境中，可靠性至关重要。除了实用的好处，晶体管电压表在教育和研究中也发挥着重要作用。学习电子学的学生可以通过使用这些设备来理解电压、电流和电阻等概念。数字显示屏的清晰度使学习者更容易解释数据，从而加深对电气原理的理解。另一方面，研究人员在需要精确电压测量的实验中利用晶体管电压表，从而推动技术和科学的发展。总之，晶体管电压表代表了电气测量领域的重要进展。它以紧凑耐用的形式提供准确的实时电压读数，使其成为专业人士和学生不可或缺的工具。随着技术的不断发展，我们很可能会看到晶体管电压表在设计和功能上的进一步创新，巩固它们在电子未来中的地位。理解和掌握晶体管电压表的使用对于任何参与电子领域的人来说都是必不可少的，因为这增强了实际技能和理论知识。