| 1. | General specification for microprocessor - based busbar protection equipment
微机母线保护装置通用技术条件 |
| 2. | Application of mirrored bits communication technology in busbar protection
镜像比特通信技术在母线保护中的应用 |
| 3. | Thus , we can make a whole new - style distributed busbar protection scheme
为全套新型的分布式母线保护方案的提出提供了理论基础。 |
| 4. | Finally , this paper put forward software scheme on other protections matched with distributed busbar protection
最后提出了和分布式母线保护配套的其他保护的软件方案。 |
| 5. | In this paper . firstly , the new busbar protection theory of medium voltage system have been introduced and summarize , the feasibility of theory also demonstrated
接着在对小电流接地系统中特殊情况下的母线保护展开分析,并对其基本理论基础和可行性进行了充分的论证。 |
| 6. | According to actuality of the busbar protection for the mostly plant and country terminal substation in our country , a new theory for busbar protection in medium transmission or distribution power system
本文针对现有广大的工厂以及农村终端变电所母线保护的现状而提出了中压母线综合保护的原理。 |
| 7. | Aimed at the existing theory of the busbar protection , especially for busbar protection criterion in medium and low power system , this paper bring forward a new theory based on the currents of two phases
本文就现有的母线保护原理,特别是中压系统母线保护的判据进行了较为深入的分析,并在此基础上提出了基于两相电流差的母线综合保护原理。 |
| 8. | The principle of rectifies type , medium impedance type , and microprocessor - based busbar protection was analyzed . several kinds of busbar protection features and their attention points in service were expounded
摘要对整流型、中阻抗型、微机型等母线保护原理进行了分析,阐述了几种母线保护的各自特点,并提出母线保护在运行和维护中的注意事项。 |
| 9. | This paper analyzes detailedly the principles on distributed busbar protection - current instantaneous value differential method , impedance method , and put forward the new method of current fault component phase method , then compares with these methods
本文详细分析了分布式母线保护中的原理?瞬时值电流差动法、阻抗法,提出了电流故障分量相位法的新方法,将这几种方法进行比较。 |
| 10. | Finally this method is realized in microprocessor based busbar protection , the result of a lot of experiments indicates that this protection can reliably avoid misfunction of the busbar protection , and when the fault is developed , the fault can be rapidly eliminated by the protection
最后,在微机保护装置上编程实现。大量试验表明谐波制动判据具有很好的抗ta饱和能力,而且当故障由母线区外转至区内时,判据能够迅速开放。 |
