bootstrap circuit
英 ['bu:tstræps ˈsɜːkɪt]
美 [ˈbutˌstræps ˈsɜːrkɪt]
自举电路;启动电路;靴电电路
双语例句
- Protective, Power and bootstrap charge circuit of IPM are also discussed.
研究了智能功率模块保护电路设计,电源设计以及自举过程; - In this paper the equivalent circuit technique and feedback block diagram method are applied to calculate the input resistance of emitter follower with bootstrap circuit. The results from both methods are identical.
采用等效电路法和反馈框图法分别计算了具有自举电路的射极输出器的输入电阻,两法结果基本一致。 - The compensating factor of linear voltage bootstrap circuit
自举式线性电压形成电路的补尝系数 - Bootstrap Circuit Analysis From the Point of View of Positive Feedback
从正反馈角度分析自举电路 - The function of bootstrap capacity in complementary symmetry circuit of power amplifier
互补对称功放电路中自举电容的作用 - A partially-adiabatic circuit, the bootstrap energy recovery logic ( BERL), was developed to reduce energy losses in low power applications in large-scale integrated circuit.
为了大规模集成电路的低能耗应用,提出了一种不完全绝热电路&自举能量回收逻辑电路(bootstrapenergyrecoverylogic,BERL)。 - The Time Error of Bootstrap Scanning Circuit
自举式扫描电路的时间误差 - From the compensating coefficient of bootstrap mode scanning circuit, the improving of circuit and cluster of curves, the basic theory of bootstrap mode scanning circuit is summarized, and the theoretical foundations for designing bootstrap mode scanning circuit is provided.
从自举式扫描电路的补偿状态、电路的改进措施和ε曲线簇三个方面全面分析了自举式扫描电路的基本原理,并为设计自举式扫描电路提供了理论依据。 - Silicon gate P-MOS technique has been adopted in developing the device, and a kind of three FETS dynamic circuit with varactor bootstrap has been adopted in developing the shift register used as scanned circuit.
该器件采用了硅栅P-MOS工艺,而作为扫描电路的移位寄存器是采用的一种带变容管自举电路的三管动态无比电路。 - The summarizing of bootstrap mode scanning circuit
自举式扫描电路的分析及改进 - In this paper through the analysis of circuit struction and experiment result, we analyse and demonstrate that the adoption of the bootstrap network does not change the configuration of complementary-symmetry OTL circuit. we clarify the function of the bootstrap network in complementary-symmetry OTL circuit.
本文从电路结构和实验验证两个方面分析与论证了自举网络的采用并没有改变互补对称OTL电路的组态属性,同时阐述了自举网络在互补对称OTL电路中的作用。 - Applications of Bootstrap Circuit to MOSFET Drivers
自举电路在MOSFET驱动中的应用 - A Study of Bootstrap Voltage Sweep Circuit
对一种自举式扫描电压电路之探讨 - This thesis indicates that it is positive feedback that causes bootstrap effect. It also analysis the emitter following circuit which includes bootstrap from the author's point of view and has got the same results as in other methods.
本文指出了自举效应的正反馈实质,并用正反馈方框图分析法,分析计算了射极跟随自举电路的特性和参数,所得结果与其它分析方法所得的结论一致。 - The relative characteristics can be changed when there is a bootstrap capacitor C in an amplifying circuit.
放大电路引入自举电容C可改变电路的有关特性。 - The bootstrap process of intelligent power module ( IPM) bootstrap circuit was analyzed.
对智能功率模块(IPM)自举电路的自举过程进行了分析。 - To improve the sweep linearity, the bootstrap circuit is applied.
采用自举电路来提高扫描线性度。 - This circuit uses full differential circuits, bottom-plate sampling, bootstrap circuits and high performance gain-booster operational amplifier.
电路采用全差分结构、底板采样、开关栅电压自举(bootstrap)和高性能的增益自举运算放大器。 - The bootstrap program is also written to realize the self-start of DSP, and is downloaded to the hardware circuit to realize the offline operation of the system.
编写了DSP引导程序实现DSP自启动,并将程序下载到硬件电路中,实现系统脱机运行。 - For the sake of meeting the response characteristics of the injector solenoid valve and improving control precision, the high-low voltage time-sharing driving circuit is designed to drive injectors based on bootstrap circuit.
为了满足喷油器高速电磁阀响应特性,提高控制精度,设计了基于自举模式的喷油器高-低压分时驱动电路。 - Active electrodes, bootstrap amplifier, driven-right-leg circuit, and adding hydrogel membrane are used to resolve this problem.
本文采用有源电极、自举放大器、右腿驱动电路和附加医用水凝胶等方法较好的解决了该问题。 - To compensate for the potential drop caused by charge leakage, the charge pump affords electric charge for the bootstrap capacitor. Use tools to simulate top circuit to make sure of the effectiveness of the function.
电荷泵为自举电容提供电荷补偿,弥补电荷泄漏引起的电位下降。 - For the standstill case, an initial position estimation method using bootstrap circuit was proposed.
针对电机起动,提出了一种基于自举电路的初始位置检测方法。