绕组损耗 meaning in Chinese
winding loss
Examples
- Based on dowll model for transformer , id analytical procedure for calculate pcb winding loss has been developed , which solved the problem of pcb winding connection in parallel , with it , the designer can easy analyzed the loss of the pcb winding
从著名学者p . l . dowell的一维变压器模型出发,建立了计算平面变压器绕组损耗的一维理论公式,从并联绕组两端电压平衡出发,解决了平面变压器绕组的并联损耗计算问题,并实现通用系统的计算机算法。 - The effect of the primary and secondary winding widths on the power loss and energy storage are analyzed for the pcb winding pattern by using 2d - fem , it is demonstrated that when the primary and secondary have the same winding width , the transformer has the lowest ac - resistance and leakage , this suggests ways the designer can modify the winding arrangement to minimize the loss of transformer
利用ansoft电磁场仿真软件和本人开发的一维平面变压器的绕组损耗计算程序对pcb绕组的并联绕组的设计问题和pcb板绕组原副边宽度相等问题进行了研究,提出了减少pcb板绕组的高频损耗的设计方法。 - We took the high frequency flyback converter design as an example and made a calculation model of the total loss of the high frequency flyback transformer . on basis of the caculation model combined with the systemic method of designing dc - dc converter , and the method which is base on the current shape , is presented to achieve the appropriate parameters of the flyback transformer , an optimized approach to design high frequency dc - dc converter is given in this paper . the appropriate parameters were achieved by genetic algorithm . through this method , a practical high frequency flyback
2 .在理论分析的基础上,以优化高频变压器的磁芯损耗和绕组损耗为目标,以单端反激式变压器为例建立了高频变压器的总损耗计算模型,在该损耗计算模型的基础上结合从系统角度设计dc - dc变换器的方法和考虑电感电流波形对变换器设计的影响,采用一种基于遗传算法的高频dc - dc变换器的优化设计方法,该优化方法实现是通过遗传算法计算得到设计参数的最优取值。