Vehicle control system

What is claimed is: 1. A vehicle control system, comprising: an engagement device that is disposed on a power transmission route between a prime mover and drive wheels, and that is engaged to transmit a first drive torque generated by the prime mover to the drive wheels and disengaged to interrupt transmission of the first drive torque; a control unit that controls hydraulic pressure applied to the engagement device thereby changing a torque transmitting capacity of the engagement device; and a vibration controller that reduces torsional vibrations of a vehicle, wherein the vibration controller is configured to set the torque transmitting capacity of the engagement device to a first torque transmitting capacity that is smaller than a value required to transmit a peak value of a second drive torque applied to an output shaft of a transmission having the engagement device but greater than a value required to transmit an estimated first drive torque, when the second drive torque is amplified by pulsation of the first drive torque. 2. The vehicle control system according to claim 1 , wherein the vibration controller is further configured to increase the first torque transmitting capacity with an increase in amplification of the second drive torque resulting from backlash reduction in at least one pair of engagement elements arranged in the power transmission route. 3. The vehicle control system according to claim 2 , wherein the vibration controller is further configured to set the torque transmitting capacity of the engagement device to a second torque transmitting capacity that is greater than a value required to transmit the estimated first drive torque but smaller than the first torque transmitting capacity. 4. The vehicle control system according to claim 3 , wherein the vibration controller is further configured to: convert the estimated first drive torque to a rate of torsional change, and set the torque transmitting capacity of the engagement device to the first torque transmitting capacity, if the rate of torsional change resulting from an amplification of the first drive torque is equal to or greater than a predetermined threshold value. 5. The vehicle control system according to claim 4 , wherein the vibration controller is further configured to adjust the first torque transmitting capacity to be smaller than a value required to transmit the peak value of the second drive torque by multiplying the estimated first drive torque by a torque amplification rate. 6. The vehicle control system according to claim 3 , wherein the vibration controller is further configured to adjust the first torque transmitting capacity to be smaller than a value required to transmit the peak value of the second drive torque by multiplying the estimated first drive torque by a torque amplification rate. 7. The vehicle control system according to claim 2 , wherein the vibration controller is further configured to: convert the estimated first drive torque to a rate of torsional change, and set the torque transmitting capacity of the engagement device to the first torque transmitting capacity, if the rate of torsional change resulting from an amplification of the first drive torque is equal to or greater than a predetermined threshold value. 8. The vehicle control system according to claim 7 , wherein the vibration controller is further configured to adjust the first torque transmitting capacity to be smaller than a value required to transmit the peak value of the second drive torque by multiplying the estimated first drive torque by a torque amplification rate. 9. The vehicle control system according to claim 2 , wherein the vibration controller is further configured to adjust the first torque transmitting capacity to be smaller than a value required to transmit the peak value of the second drive torque by multiplying the estimated first drive torque by a torque amplification rate. 10. The vehicle control system according to claim 1 , wherein the vibration controller is further configured to: convert the estimated first drive torque to a rate of torsional change, and set the torque transmitting capacity of the engagement device to the first torque transmitting capacity, if the rate of torsional change resulting from an amplification of the first drive torque is equal to or greater than a predetermined threshold value. 11. The vehicle control system according to claim 10 , wherein the vibration controller is further configured to adjust the first torque transmitting capacity to be smaller than a value required to transmit the peak value of the second drive torque by multiplying the estimated first drive torque by a torque amplification rate. 12. The vehicle control system according to claim 1 , wherein the vibration controller is further configured to adjust the first torque transmitting capacity to be smaller than a value required to transmit the peak value of the second drive torque by multiplying the estimated first drive torque by a torque amplification rate.