A 1-phase 48-pole axial peg style electrostatic rotating machine utilizing variable elastance

B. Ge, D. Ludois
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引用次数: 6

Abstract

Starting from the duality of magnetic reluctance and electric elastance, this paper discusses design features of an axial peg style electrostatic rotating machine. Axial peg style refers to the geometry of the machine. Interdigitated pegs (cylinders) come into, and out of, radial alignment as the machine rotates causing variable capacitance between the stator and rotor. A prototype with peak torque of 0.9 N-m and gap field strength of 14 kV/mm was constructed. The specific torque density of the machine is 0.126 N-m/kg, comparable to fractional horsepower NEMA class induction machines. This was achieved by filling the machine with a dielectric fluid whose relative permittivity is 7.1, rather than ultra-high vacuum typically employed in canonical macro scale electrostatic machine designs. Selected experimental measurements presented include angular capacitance, stall torque, average torque and losses under stall conditions.
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采用可变弹性的单相48极轴向挂钩式静电旋转机
从磁阻和电弹性的二重性出发,论述了轴向挂钩式静电旋转电机的设计特点。轴向钉式是指机器的几何形状。当机器旋转时,交叉的插销(气缸)进入和离开径向对准,引起定子和转子之间的可变电容。构建了峰值转矩为0.9 N-m、间隙场强为14 kV/mm的样机。机器的比扭矩密度为0.126 N-m/kg,与分数马力NEMA级感应电机相当。这是通过用相对介电常数为7.1的介电流体填充机器来实现的,而不是在规范的宏观尺度静电机器设计中通常采用的超高真空。选定的实验测量包括角电容、失速转矩、平均转矩和失速条件下的损耗。
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