低磁芯损耗,饱和磁通密度较高。
Lower power loss material with high saturation flux density.
比NH2B材料磁芯损耗更低,饱和磁通密度较高。
The power loss is lower than NH2B material with high saturation flux density.
磁性元件的损耗在开关电源中占相当大的比例,因此磁芯损耗的计算在开关电源设计中相当重要。
The losses of magnetic components occupy a considerable proportion in switching power supply, so the calculation of core loss is very important.
该方法适用于估测高次谐波场对磁滞损耗的影响,降低能量损耗的偏转系统磁芯结构的优化,磁性材料的选择等。
This method may possibly be used to estimate influence of high order harmonic field on hysteresis loss to optimize the design of deflection yoke ring and to develop energy saving ferrite materials.
得出了线圈型样品交流损耗与峰值磁场、励磁频率,材料扭矩,基体材料,细芯直径诸量间的依赖关系。
The dependence of the ac loss of coil-type samples on the peak value of magnetic field, magnetizing frequency, pitch of materials, matrix and diameter of filament were obtained.
该方法适用于降低能量损耗的偏转系统磁芯结构的优化和磁性材料的选择等。
The analysis method can be used to optimize the deflection yoke ring, and to properly select the ferrite materials for energy dissipation reduction.
对偏转磁芯所用的铁氧体材料的磁滞损耗特性进行了分析,介绍了磁滞回线测量的方法原理,由测试结果可计算出磁滞回线面积。
The hysteresis loss characteristics of the ferrite material used in deflection yoke rings were studied. The principle and method of hysteresis loop measurement have been introduced.
铁基纳米晶逆变变压器磁芯其具有高饱和磁感应强度,效率高,激磁功率小,损耗低,良好的温度稳定性。
Fe-based nanocrystalline core transformer inverter which has a high saturation magnetic flux density, high efficiency, small excitation power, low loss, good temperature stability.
磁粉芯经脱脂、热处理后纳米晶粉颗粒的间隙减小,使得磁粉芯涡流损耗上升和磁粉芯中心频率下移。
Degreasing and heat treatment can reduce the gap among nano-crystalline core particles, increase the vortex flowing loss and move down the frequency of core's center.
表中单芯铠装电缆仅适用于直流线路,如用于交流则必需采用非磁性材料或减少磁损耗结构的铠装。
The single core armored cable in the list are only suitable for use for DC circuit. If used for AC circuit, non-magnetic material or armored by reducing magnetic loss structure must be used.
表中单芯铠装电缆仅适用于直流线路,如用于交流则必需采用非磁性材料或减少磁损耗结构的铠装。
The single core armored cable in the list are only suitable for use for DC circuit. If used for AC circuit, non-magnetic material or armored by reducing magnetic loss structure must be used.
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