Synchronization of two non-identical coupled exciters in a non-resonant vibrating system of plane motion
Chunyu Zhao*, Qinghua Zhao, Yimin Zhang, Bangchun Wen1
The Journal of Mechanical Science and Technology, vol. 25, no. 1, pp.49-60, 2011
Abstract : In the average method of modified small parameters, the synchronization of two coupled exciters is converted to a problem on the existence
and stability of zero solutions for the average differential equations of small parameters over the average period of two exciters.
To implement frequency capture, the torque of frequency capture should be greater than or equal to the absolute value of the difference
between the residual electromagnetic torques of the two motors. Because each exciter is involved in the motion of the vibrating system it
has excited, its relative moment of inertia is reduced. The reduction is proportional to half its coefficient of cosine effect of phase angles
(CCEPA). Because one of the exciters is involved in the motion excited by the other, a coupled moment of inertia exists for the two exciters.
The stability of the synchronization of the two exciters is affected by the reduction of their relative moments of inertia and their
moment of coupling inertia. For the synchronization to be stable, two conditions must be satisfied: (1) the non-dimensional relative moments
of inertia of the two exciters are all greater than zero, and (2) four times the product of their non-dimensional relative moments is
greater than the square of the coefficient of coupled cosine effect (CCCPA). The stability of synchronization depends solely on the ratios
of the masses of the two exciters to the mass of the vibrating system and the ratio of the distance between one exciter and the centroid of
the rigid frame to the equivalent rotating radius of the vibrating system about its centroid of the rigid frame, and is independent of the
parameters of the two induction motors.
Keyword : Synchronization; Stability; Non-resonant vibrating system; Frequency capture; Vibratory synchronization transmission |