VRM? Voltage Regulating Manager?
电压调节管理器?。
Furthermore, the suitable control methods of VRM are discussed.
同时对适用于VRM的控制方法进行了论述。
Adjustable colours and line thickness for safety contours, own ship outline, EBL and VRM.
对于安全图廓,自有船轮廓,EBL和VRM可调节颜色及线条粗细。
It is necessary to define its basic theories and major contents in order to further research about VRM.
为了进一步开展广泛而深入地研究,首先需要明确其主要基础理论及重要研究内容。
Experimental results proved the theoretical analysis, and the feasibility of this VRM design was verified.
通过对实验波形的分析,验证了理论分析的正确性和本文VRM设计方案的可行性。
Against this background, it is significant to study the VRM with high efficiency, because it can save energy and reduce the thermal stress.
在这一背景之下,研究高效率的电压调节模块,对于节约能源、减小热应力、提高系统的可靠性,实现绿色电力电子具有重大意义。
Several method to improve the fast response capability in VRM research are given in the paper, especially the V2 control model are analyzed in detail.
列出了几种VRM研究中提高快速瞬态响应性能的方法,特别对V2控制方法进行了详细分析。
Nowadays, the power supply of microprocessors is Voltage Regulator Module (VRM), which has been the challenge and focus in the field of power Electronics.
当前,作为微处理器供电电源的电压调节模块(VRM)是电力电子界研究的一个难点和热点。
Also the details about the coast, target and other navigational subjects echo and the interference of echo and Ring, Ebl, Vrm of Radar and clipping algorithm etc.
介绍了模拟港口岸形、物标回波和其他助航物标回波的生成,雷达回波的干扰、遮挡和衰减,固定距标圈、电子方位线和活动距标圈的显隐与图像的有关裁剪算法等。
Enhances unceasingly along with the microprocessor speed, the capacity increases unceasingly the tendency, set a higher request to voltage regulation module (VRM).
随着微处理器速度不断提高,容量不断增大,对电压调节模块(VRM)提出了更高的要求。
In this paper, according to VRM "s prominent characteristics and contents of virtual manufacturing, the systemic framework of virtual remanufacturing is discussed and established."
现根据虚拟再制造的显著特点,参考虚拟制造的研究内容,探讨建立了虚拟再制造研究的体系框架。
The Gyrator-Capacitor model is first introduced to modeling two-phase integrating magnetics Voltage Regulator Module(VRM), which can deduce the corresponding self-inductance and mutual inductance.
文章首先利用回转器-电容模型对两相电压调整模块进行建模研究,并推导出具体的磁集成自感和互感表达式;
The Gyrator-Capacitor model is first introduced to modeling two-phase integrating magnetics Voltage Regulator Module(VRM), which can deduce the corresponding self-inductance and mutual inductance.
文章首先利用回转器-电容模型对两相电压调整模块进行建模研究,并推导出具体的磁集成自感和互感表达式;
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