电路保护

  • 网络Circuit Protection;PPTC
电路保护电路保护
  1. 利用ABS实现MEMS后处理中的电路保护

    Protection of Circuits in MEMS Post-Processing with ABS

  2. USB电路保护的设计考虑

    Design Considerations for USB Circuit Protection

  3. 提供电路保护和降低成本的聚合物PTC组件

    Polymeric PTC Devices Protect Circuits and Reduce Warranty Costs

  4. 有机PTC电路保护元件电极研究

    Organic Electrode of Protective Element for PTC Circuit

  5. 联合式电路保护防止损坏DVB网络设备

    Combined Circuit Protection Helps to Prevent DVB Network Devices from Damaging

  6. ESD电路保护设计中的若干关键问题

    Key Issues in the ESD Protection Design

  7. GTR自保护驱动电路保护死区短路功耗计算

    The Short Circuit Power Consumption Calculation of the Dead Zone by Using GTR Self-Protect Drive-Circuit

  8. 本文提出了GTR短路时的数学模型,并应用这一模型对GTR自保护驱动电路保护死区短路功耗进行了计算。

    The mathematical model which is used to calculate the dead zone power consumption when GTR is on short circuit is provided .

  9. 对由CKF集成电路保护装置与收发信机构成的方向高频保护误动进行了具体的实例分析,找出了误动的原因是保护装置出口延时太短和收发信机存在收信间断问题。

    The maloperation of directional high frequency relay composed of CKF integrated circuit protective device and receiving transmitting unit is analyzed with examples .

  10. 最后研究了基于RSD的重频脉冲功率系统,首先介绍了该重频系统的组成:充电模块、驱动模块、电路保护模块、散热模块、RSD重频电路模块和负载。

    Finally , this paper focused on the repetition pulsed power system based on RSD devices . The modules of the system consist that following as charging module , drive module , circuit protection module , cooling module , RSD-frequency circuit module and the load .

  11. 本文论述了国外开发的几种片叠层压敏电阻(MCV)的结构、特性及当前的发展方向,介绍了这类压敏电阻器在集成电路保护、汽车电路保护和CMOS器件保护等方面的应用。

    This paper Presents the structure , characteristics and trends of several multilayer-chip ZnO varistor ( MCV ) . Based on the principles of MCV , applications of MCV , in IC . automobile circuits and CMOS components , are discussed in details as transient surge ar-restors .

  12. 它还绕过一些内置的家庭电路保护装置。

    It also bypasses some of the built-in household circuit protection devices .

  13. 建立多级的电路保护机制探讨

    An Discussion on the Construction of Multilevel Service Protection Mechanism

  14. 错装反装电池的电路保护设计。

    Wrong attire counter-attire battery 's circuit protection design .

  15. 大型发变组集成电路保护的微机自动检测装置研制

    Development of a microprocessor-based automatic detecting device for IC-based protection of large generator-transformer set

  16. 下一代产品所需的过流和过压电路保护

    Overcurrent and Overvoltage Protecting for New Generation Products

  17. 为什麽客户会需求这种电路保护?

    Why do our customers require circuit protection ?

  18. 提出汽车电路保护的新思想和新方法。

    A new idea and a new method of vehicle circuit protection are presented .

  19. 功率电子的电路保护新选择

    New Circuit Protection Options for Power Electronics

  20. 对电动机电路保护进行了分析,提高其运行效率。

    Different kinds of protective technique for the motor are analyzed to improve its running efficiency .

  21. 半导体电路保护用熔断器

    Fuse for protection of semiconductor circuit

  22. 本文介绍如何通过电路保护器件来预防电路瞬态的发生。

    This article describes how the circuit protection device to prevent the occurrence of transient circuit .

  23. 本文利用专用集成芯片和单片机实现了充放电控制和电路保护功能。

    Charge and discharge control and circuit protection is implemented by using battery protection IC and microchip .

  24. 混合封装能实现最佳的电路保护

    Hybrid Packages Maximize Circuit Protection

  25. 汽车网络的电路保护

    Circuit Protection for Automotive Networks

  26. 提出了缺相和错相电路保护方案的设计,并分析其工作原理。

    The article describes the design of phase lack and phase dislocation protection circuits and analyzes the operation concept .

  27. 本方案所采用的曲线拟合法在集成电路保护实现领域内是独特的,尤其是在实用性、可靠性以及准确性上都有较新的突破。

    This scheme is unique in protection area . New progresses arc made on practicability , reliability and accuracy .

  28. 并采用软硬件结合的方法,实现了主电路保护,提高了系统的可靠性。

    Further , the method combining hardware with software , which realizes the main-circuit protection , improves the system reliability .

  29. 重点描述了失超保护控制系统的软件和硬件电路保护的设计,并给出了它们的设计原理图。

    The software and hardware circuit of the control system is presented in details , and the schematic diagrams were given .

  30. 提供了其中的容性绕组的结构、接线方式以及电路保护等技术特征。

    The connection mode of service power supply directly affects safe operation of generating unit and economic benefits of the power plant .