Control apparatus of vibration actuator, method for controlling vibration actuator, driving apparatus, imaging apparatus, interchangeable lens, and automatic stage

What is claimed is: 1. A control apparatus of a vibration actuator, the control apparatus including a control unit comprising: a unit configured to obtain a relative position between a vibrator and a driven member by a position detection unit, and to output a first deviation, which is a difference between the relative position and a command value of the relative position; a gain control unit configured to obtain a second deviation, which is a difference between the relative position and a target position of the relative position, and to a output a gain based on the second deviation; and a control amount calculation unit configured to output a control amount to be used to control driving of the vibrator using the first deviation and the gain, wherein the gain control unit reduces the gain output in accordance with reduction of the second deviation, and the relative position between the vibrator and the driven member is changed due to driving of the vibrator. 2. The control apparatus of the vibration actuator according to claim 1 , the control apparatus further comprising a control parameter generation unit configured to generate a control parameter based on the control amount. 3. The control apparatus of the vibration actuator according to claim 1 , the control apparatus further comprising a driving unit configured to generate an AC signal to be applied to the vibrator based on output of the control unit. 4. The control apparatus of the vibration actuator according to claim 3 , wherein an elliptic motion is generated in a driving unit of the vibrator by applying the AC signal to the vibrator, and the relative position between the vibrator and the driven member is changed by the elliptic motion. 5. The control apparatus of the vibration actuator according to claim 1 , wherein the control unit reduces the gain in accordance with reduction of the second deviation in a deceleration driving period and a stop driving period. 6. The control apparatus of the vibration actuator according to claim 1 , wherein the control unit reduces the gain in accordance with reduction of the second deviation in a period from when deceleration of the vibration actuator is started to when the second deviation becomes 0. 7. The control apparatus of the vibration actuator according to claim 1 , wherein the gain control unit inverts a sign of the gain when the second deviation reaches a certain value. 8. The control apparatus of the vibration actuator according to claim 7 , wherein the certain value is a deviation corresponding to target accuracy of a stop setting. 9. The control apparatus of the vibration actuator according to claim 1 , wherein the gain control unit increases the gain when the second deviation reaches a certain value. 10. The control apparatus of the vibration actuator according to claim 9 , wherein the certain value is a deviation corresponding to target accuracy of a stop setting. 11. The control apparatus of the vibration actuator according to claim 1 , wherein the control amount is obtained by multiplying a value obtained by performing PID calculation on the first deviation by the gain. 12. The control apparatus of the vibration actuator according to claim 1 , wherein the control amount is obtained by performing PID calculation on a value obtained by multiplying the first deviation by the gain. 13. The control apparatus of the vibration actuator according to claim 2 , wherein the control parameter controls at least one of an ellipse ratio, amplitude, and a driving direction of the elliptic motion. 14. The control apparatus of the vibration actuator according to claim 2 , wherein the AC signal includes a phase, a frequency, or a driving voltage set in accordance with the control parameter. 15. The control apparatus of the vibration actuator according to claim 2 , the control apparatus further comprising: a voltage control unit; and an AC signal generation unit configured to generate the AC signal in accordance with an output of the control parameter generation unit and an output of the voltage control unit. 16. A driving apparatus comprising a vibration actuator; and the control apparatus of the vibration actuator set forth in claim 1 . 17. An interchangeable lens comprising: a lens; and the control apparatus of the vibration actuator set forth in claim 1 which drives the lens by driving the driven member. 18. An imaging apparatus comprising: an imaging element; a lens; and the control apparatus of the vibration actuator set forth in claim 1 which drives the lens by driving the driven member. 19. An imaging apparatus comprising: a lens; an imaging element; and the control apparatus of the vibration actuator set forth in claim 1 which drives the imaging element by driving the driven member. 20. An automatic stage comprising: a stage; and the control apparatus of the vibration actuator set forth in claim 1 configured to drive the stage by driving the driven member. 21. A method for controlling a vibration actuator, the method comprising: obtaining a relative position between a vibrator including an electric-mechanical energy conversion element and a driven member, and obtaining a first deviation, which is a difference between the relative position and a command value related to the relative position; obtaining a second deviation, which is a difference between a target position of the relative position and the relative position; reducing a gain in accordance with reduction of the second deviation; and generating an AC signal for driving the vibrator in accordance with the gain and the first deviation. 22. The method for controlling the vibration actuator according to claim 21 , wherein the generating includes generation of a control amount of the vibration in accordance with the controlled gain and the first deviation, and the control amount is used to control an ellipse ratio, amplitude, or a driving voltage of an elliptic motion generated in a driving unit of a vibrator driven by the AC signal. 23. The method for controlling the vibration actuator according to claim 22 , wherein a phase, a frequency, or a driving voltage of the AC signal is set in accordance with the driving control. 24. A control apparatus of a vibration actuator, the control apparatus including a controller comprising: one or more processors; and one or more memories storing instructions that, when executed by the one or more processors, cause the control apparatus to perform operations comprising: obtaining a relative position between a vibrator and a driven member by a position detector, and outputting a first deviation, which is a difference between the relative position and a command value of the relative position; performing a gain control process for obtaining a second deviation, which is a difference between the relative position and a target position of the relative position, and outputting a gain based on the second deviation; and outputting a control amount to be used to control driving of the vibrator using the first deviation and the gain, wherein the gain control process reduces the gain output in accordance with reduction of the second deviation, and the relative position between the vibrator and the driven member is changed due to driving of the vibrator. 25. The control apparatus of the vibration actuator according to claim 24 , the operations further comprising a control parameter generation