In this work, beside estimation of mechanical and electrical design parameters the dynamic analysis of a vibration exciter system using computer calculations is investigated. Depending on basic mechanical parameters such as shaking force and power, strength of the motor shaft according to torsion and bending has been made. With determined electrical parameters, the characteristic curve of the AC motor is drawn. Finally, the frequency response of the vibration system depending on various shaking masses is described by test curves. Damping and stiffness coefficients of the exciter system are then found from measured data of test curves. Results are rebuilt with relevant computer simulations and graphics. The system is designed for determining the elasticity and damping properties of the vibration elements.