Control apparatus for vibration-type actuator, method of controlling vibration-type actuator, driving apparatus, image pickup apparatus, and automatic stage

What is claimed is: 1. A control apparatus for a vibration-type actuator, the control apparatus comprising: an instruction value generation unit configured to generate an instruction value for a first relative position of a vibrator and a contact member; a position detection unit configured to detect a second relative position of the vibrator and the contact member; and a control unit configured to generate a signal containing information for controlling the vibrator by adding a feedback amount and a speed feedforward amount, wherein the feedback amount is obtained based on at least one of integration processing and differentiation processing based on a difference between the first relative position of the vibrator and the contact member and the second relative position of the vibrator and the contact member, and the speed feedforward amount is obtained based on a change over time based on the first relative position, and wherein the second relative position can be changed by driving the vibrator. 2. The control apparatus for a vibration-type actuator according to claim 1 , wherein the vibrator is configured such that the second relative position is changed by elliptical motion generated in a driving unit of the vibrator by applying an alternating current signal to the vibrator. 3. The control apparatus for a vibration-type actuator according to claim 1 , wherein the control unit includes: a feedback calculation unit configured to obtain the feedback amount; a speed feedforward calculation unit configured to obtain the speed feedforward amount; and an adder configured to output a control amount by adding the feedback amount and the speed feedforward amount. 4. The control apparatus for a vibration-type actuator according to claim 3 , wherein the speed feedforward calculation unit includes: a speed calculation unit configured to take a time derivative of the first relative position and output the time derivative; and a multiplier configured to multiply an output of the speed calculation unit by a speed feedforward gain. 5. The control apparatus for a vibration-type actuator according to claim 3 , wherein Gv and Gd satisfy the following formula: Gv≤Gd, wherein the Gv represents a speed feedforward gain of the speed feedforward calculation unit and the Gd represents a derivative gain of the feedback calculation unit. 6. The control apparatus for a vibration-type actuator according to claim 3 , wherein the feedback calculation unit further includes an acceleration calculation unit constituted by a second derivative term. 7. The control apparatus for a vibration-type actuator according to claim 3 , wherein the control unit includes a control parameter generation unit configured to generate a control parameter on the basis of the control amount. 8. The control apparatus for a vibration-type actuator according to claim 7 , wherein the control parameter is at least one of a frequency and a phase. 9. The control apparatus for a vibration-type actuator according to claim 3 , wherein a driving unit configured to generate an alternating current signal to be applied to the vibrator on the basis of an output of the control unit is provided. 10. The control apparatus for a vibration-type actuator according to claim 9 , wherein the driving unit includes an alternating current signal generation unit configured to generate an alternating current signal that has one of a phase and a frequency set on the basis of the control amount. 11. A driving apparatus, comprising: the control apparatus for a vibration-type actuator according to claim 1 ; and the vibration-type actuator. 12. A replacement lens, comprising: a lens; and the control apparatus for a vibration-type actuator according to claim 1 configured to drive the lens by driving the contact member. 13. An image pickup apparatus, comprising: an image pickup element; a lens; and the control apparatus for a vibration-type actuator according to claim 1 configured to drive the lens by driving the contact member. 14. An automatic stage, comprising: a stage; and the control apparatus for a vibration-type actuator according to claim 1 configured to drive the stage by driving the contact member. 15. The control apparatus for a vibration-type actuator according to claim 1 , wherein the feedback amount and the speed feedforward amount are obtained in each cycle. 16. The control apparatus for a vibration-type actuator according to claim 1 , wherein a vibration of the vibrator is controlled by a driving signal generated based on the signal containing information for controlling the vibrator such that the second relative position can be changed by driving the vibrator. 17. A control apparatus for a vibration-type actuator, the control apparatus comprising: an instruction value generation unit configured to generate an instruction value for a first relative position of a vibrator and a contact member; a position detection unit configured to detect a second relative position of the vibrator and the contact member; and a control unit configured to generate a signal containing information for controlling at least one of an elliptic ratio of elliptical motion generated in the vibrator and a direction in which the second relative position is changeable by adding a feedback amount and a speed feedforward amount, wherein the feedback amount is obtained based on a differences between the first relative positions of the vibrator and the contact member and the second relative positions of the vibrator and the contact member, and the speed feedforward amount is obtained based on a change over time based on the first relative position, and wherein the second relative position can be changed by driving the vibrator. 18. The control apparatus for a vibration-type actuator according to claim 17 , wherein the feedback amount is generated by a feedback calculation unit configured to carry out at least one of integration processing and differentiation processing. 19. The control apparatus for a vibration-type actuator according to claim 17 , wherein the control unit includes: a feedback calculation unit configured to obtain the feedback amount; a speed feedforward calculation unit configured to obtain the speed feedforward amount; and an adder configured to output a control amount by adding the feedback amount and the speed feedforward amount. 20. The control apparatus for a vibration-type actuator according to claim 19 , wherein the speed feedforward calculation unit includes: a speed calculation unit configured to take a time derivative of the first relative position and output the time derivative; and a multiplier configured to multiply an output of the speed calculation unit by a speed feedforward gain. 21. The control apparatus for a vibration-type actuator according to claim 19 , wherein Gv and Gd satisfy a following formula: Gv≤Gd, wherein the Gv represents a speed feedforward gain of the speed feedforward calculation unit and the Gd represents a derivative gain of the feedback calculation unit. 22. The control apparatus for a vibration-type actuator according to claim 19 , wherein the feedback calculation unit further includes an acceleration calculation unit constituted by a second derivative term. 23. The control apparatus for a vibration-type actuator according to claim 19 , wherein the control unit includes a control par