fault signal的音标是[ˈfɔːlt sɪɡl] ,基本翻译是故障信号,速记技巧是注意分音节,划分成[fɔːlt] [sɪɡl]。
Fault signal的英文词源是fault(故障)和signal(信号)。这个词的含义是表示故障警告信号。
变化形式:无变化。
相关单词:
1. faulty:adj.有错误的,有缺点的 - 词源同fault,来自faulty judgment(错误的判断)。
2. fuzz:n.模糊不清的事物 - 词源同fault,来自模糊的故障信号。
3. malfunction:n.故障,不正常工作 - 词源同malicious(恶意的)和function(功能)。
4. faultfinding:n.挑错,吹毛求疵 - 词源同fault(故障)和finding(寻找)。
5. faulty diagnosis:错误的诊断 - 组合词,fault(故障)+ diagnosis(诊断)。
6. fault tolerance:故障容忍度 - 词源同fault(故障)和tolerance(容忍)。
7. fault-tolerant:adj.容错 - 词源同fault(故障)和tolerant(容忍的)。
8. fault-free:adj.无故障的 - 词源同fault(故障)。
9. fault-detection:故障检测 - 词源同fault(故障)和detection(检测)。
10. fault-indication:故障指示 - 词源同fault(故障)和indication(指示)。
以上单词都与fault signal有着密切的联系,通过这些单词我们可以进一步理解fault signal的含义和词源。
fault signal常用短语:
1. fault detection信号检测故障
2. fault tolerance故障容错
3. fault-tolerant design容错设计
4. fault-tolerant system容错系统
5. fault-tolerant computing容错计算
6. fault-tolerant communication容错通信
7. fault-tolerant control容错控制
双语例句:
1. The fault signal was detected by the satellite"s automatic monitoring system.
卫星自动监测系统检测到了故障信号。
2. The fault tolerance of the system ensures that it can continue to operate even if there are minor faults.
该系统的故障容错能力确保即使出现小故障,系统也能继续运行。
3. Fault-tolerant design is a key factor in ensuring the reliability of critical systems.
容错设计是确保关键系统可靠性的关键因素。
4. Fault-tolerant communication protocols ensure that data is transmitted reliably even in the face of failures.
容错通信协议确保即使在出现故障的情况下也能可靠地传输数据。
5. Fault-tolerant control systems are designed to ensure that critical processes continue to operate even in the face of unexpected events.
容错控制系统旨在确保即使面对意外事件,关键过程也能继续运行。
6. Fault signals are sent to the operator"s control center, allowing them to take immediate action to correct the problem.
故障信号被发送到操作员的控制中心,使他们能够立即采取行动纠正问题。
7. The satellite"s fault-tolerant design ensures that it can continue to operate even if there are technical issues with the equipment.
卫星的容错设计确保即使设备出现技术问题,它仍能继续运行。
英文小作文:
Fault tolerance is a crucial aspect of ensuring the reliability of critical systems and processes. By employing fault-tolerant design and implementing fault-tolerant communication and control strategies, organizations can minimize the impact of unexpected failures and maintain system functionality even in the face of technical issues. This ensures that critical operations continue to run smoothly and efficiently, minimizing downtime and ensuring maximum productivity. Furthermore, fault-tolerant systems are designed to be resilient to cyber threats and malicious attacks, providing additional levels of security and protection for critical information and data. Therefore, implementing fault tolerance strategies is essential for ensuring the reliability and security of critical systems and processes in today"s digital age.