Linear regulator

美 [ˈlɪniər ˈreɡjuleɪtər]英 [ˈlɪniə(r) ˈreɡjuleɪtə(r)]
  • 网络线性调节器;线性稳压器
Linear regulatorLinear regulator
  1. A dynamic compensation method of low dropout linear regulator 's stability

    一种LDO线性稳压器稳定性动态补偿方法

  2. The Research of Low Drop-out Linear Regulator Based on CMOS Technology

    基于CMOS工艺的低压差线性稳压器研究

  3. A New Robust Frequency Compensation Design for Linear Regulator

    一种新型线性调节器的鲁棒性频率补偿设计

  4. The Study and Design of an Ultra Low Dropout Linear Regulator

    一种具有超低压差线性稳压器的研究和设计

  5. Research and Design of the Core Blocks in Low Dropout Linear Regulator

    LDO线性稳压器中关键模块的研究与设计

  6. Application of Linear Regulator in Power Accumulator Battery Testing System for Electric Vehicles

    线性调节器在EV动力电池组性能测试中的应用

  7. An engineering practical algorithm for weighting matrix of linear regulator

    线性调节器加权矩阵的工程实用逆推算法

  8. This Paper gives a design method of the linear regulator in the disturbed case .

    本文给出了一种扰动情况下线性调节器的设计方法。

  9. Design of Robust Fault-tolerant Linear Regulator for Discrete Systems

    离散系统鲁棒容错线性调节器设计

  10. A parameterization method for determining the weighting matrix of linear regulator of discrete system

    确定离散系统线性调节器加权矩阵的参数化方法

  11. The characteristics and general applications of low dropout linear regulator are presented in this article .

    本文描述了低压差线性稳压器的特性和它在电源领域的一般应用。

  12. Low dropout linear regulator with no off-chip capacitor and low power consumption

    低功耗无片外电容的低压差线性稳压器

  13. A Non-Riccati Solution of the Linear Regulator with Finite Time

    有限时间线性调节器的非Riccati解法

  14. The Implement of High Precision Low-dropout Linear Regulator IC

    一种高精度低压差线性稳压芯片的实现

  15. Design of a Novel Bipolar LDO Linear Regulator

    一种新型双极型LDO线性稳压器的设计

  16. Design of Linear Regulator Possessing Integrity

    具有完整性的线性调节器设计

  17. An Overview of the Development of LDO Voltage Regulators Improvement of low dropout linear regulator

    低压差电压调节器技术发展动态低压差(LDO)线性稳压器结构的改进

  18. Low - dropout linear regulator based on BiCMOS

    基于BiCMOS的高精度LDO线性稳压电路

  19. Improvement of low dropout linear regulator

    低压差(LDO)线性稳压器结构的改进

  20. On the Sufficiency of Linear Regulator 's Frequency Conditions Monitor of Conditions of Machine Tool by Frequency Respond

    关于线性调节器频率条件的充分性用实测频响函数的相对灵敏度对机床状态进行监测

  21. Linear regulator operation can be set to always ON , OFF or automatic turn on / off according to the load current .

    线性稳压器模式的接入可被设定为恒通、恒关或依据负载电流的大小而自动接通/关断。

  22. Magnetic field through the insulation of the linear regulator , can make all the atoms into a spin configuration .

    通过绝热的线性调节磁场,可以使得所有原子成为一种自旋组态。

  23. A High-Precision Low Dropout Linear Regulator

    一种高精度低压差电压调整器

  24. Low-Cost , Low-Dropout , Dual Linear Regulator .

    低成本,低压差,双的线性稳压器。

  25. Adopting a LDO linear regulator to power most of the internal circuit , the interference from the supply noise is reduced .

    采用线性稳压器为内部各模块提供工作电压,减小电源噪声的干扰。

  26. The series-connected resistor circuit , series linear regulator circuit , parallel linear regulator circuit and switching power supply circuit are analyzed .

    分析了当前用于LED驱动的电阻限流电路,串联和并联线性调节电路及开关电源电路。

  27. According to different requirements of equipments , all sorts of power supply were developed successively from early linear regulator to present switching regulator .

    因此根据不同的要求,人们先后研制出各种各样的稳压电源,从比较早的串联型稳压电源到如今广泛应用的开关电源。

  28. The controller includes a linear regulator circuit , ML4425 external circuit , smooth start-stop circuit , three-phase power bridge and drive circuit .

    该控制器主要包括线性稳压电路设计、ML4425外围电路设计、电机平稳起停电路设计、三相功率桥及其驱动线路设计。

  29. Low dropout linear regulator was wide used in portable electronic products for its simple structure , low noise , small encapsulation and few off-chip device .

    低压差(LowDropout,LDO)线性稳压器具有结构简单、低噪声、低功耗以及较小封装和较少的外围应用器件等突出优点,在便携式电子产品中得到广泛的应用。

  30. After many years ' development , switching power supply has replaced the conventional linear regulator power supply and become the first choice of the power supply system in electronic devices .

    经过多年的发展,开关电源以其高性能、高效率、高功率密度等优点,已经取代了传统的线性调整器电源,成为电子设备中电源系统的首选。