Drive control circuit that drives vibrator, driving method, vibration-type driving apparatus, and image pickup apparatus

What is claimed is: 1. A drive control circuit that drives at least one vibrator having an electro-mechanical energy conversion element and a projection portion that comes into contact with a driven body, and effects relative movement between the driven body and the projection portion through elliptical motion produced in the projection portion by application of an alternating-current signal to the electro-mechanical energy conversion element said drive control circuit, comprising: a controller configured to control the at least one vibrator; and a drive circuit configured to output the alternating-current signal, which is to be applied to the electro-mechanical energy conversion element, based on an output from said controller, wherein in a case where a ratio of a component in a direction parallel to a driving direction of the driven body to a component in a direction of a thickness of the electro-mechanical energy conversion element in a path of the elliptical motion is defined as an ellipse ratio of the elliptical motion, said controller controls said drive circuit such that the ellipse ratio of the elliptical motion in a first driving mode is greater than an ellipse ratio of the elliptical motion in a second driving mode in which relative positions of the projection portion and the driven body are changed. 2. The drive control circuit according to claim 1 , wherein in driving a plurality of vibrators, said controller controls said drive circuit in the first driving mode such that one of the plurality of vibrators is brought to a standstill, and the ellipse ratio of the elliptical motion produced in the projection portions of the rest of the vibrators is greater than the ellipse ratio of the elliptical motion in the second driving mode. 3. The drive control circuit according to claim 1 , wherein the first driving mode is performed later than turning-on of power supply to the drive control circuit and earlier than execution of the second driving mode. 4. The drive control circuit according to claim 1 , wherein the first driving mode is performed earlier than turning-off of power supply to the drive control circuit. 5. The drive control circuit according to claim 1 , wherein the first driving mode is performed at a time at which a predetermined time period has elapsed with relative positions of the vibrator and the driven body unchanged. 6. The drive control circuit according to claim 1 , further comprising a detector configured to detect a position of the driven body, wherein the first driving mode is performed later than said detector detects the driven body having moved to a target position. 7. A driving method for driving at least one vibrator having an electro-mechanical energy conversion element and a projection portion that comes into contact with a driven body, and effects relative movement between the driven body and the projection portion through elliptical motion produced in the projection portion by application of an alternating-current signal to the electro-mechanical energy conversion element, said driving method comprising: a driving step of applying the alternating-current signal to the electro-mechanical energy conversion element and changing relative positions of the projecting portion and the driven body; and a control step of, in a case where a ratio of a component in a direction parallel to a driving direction of the driven body to a component in a direction of a thickness of the electro-mechanical energy conversion element in a path of the elliptical motion is defined as an ellipse ratio of the elliptical motion, providing control such that the ellipse ratio of the elliptical motion is greater than an ellipse ratio of the elliptical motion provided in the driving step. 8. The driving method according to claim 7 , wherein in driving a plurality of vibrators, one of the plurality of vibrators is brought to a standstill, and the elliptical motion produced in the projection portions of the rest of the vibrators is greater than the ellipse ratio of the elliptical motion in the control step. 9. A vibration-type driving apparatus comprising: at least one vibrator configured to have an electro-mechanical energy conversion element and an elastic body with a first side to which said electro-mechanical energy conversion element is joined, and have a projecting portion provided on a second side opposite to the first side; a driven body configured to come into pressure contact with said projecting portion; and a drive control circuit configured to drive said at least one vibrator, wherein elliptical motion is produced in said projecting portion to effect relative movement between said at least one vibrator and said driven body, and said drive control circuit comprises: a controller configured to control said at least one vibrator; and a drive circuit that outputs an alternating-current signal, which is to be applied to said electro-mechanical energy conversion element so as to excite the elliptical motion in said projecting portion, based on an output from said controller, wherein in a case where a ratio of a component in a direction parallel to a driving direction of said driven body to a component in a direction of a thickness of said electro-mechanical energy conversion element in a path of the elliptical motion is defined as an ellipse ratio of the elliptical motion, said controller controls said drive circuit such that the ellipse ratio of the elliptical motion in a first driving mode is greater than an ellipse ratio of the elliptical motion in a second driving mode in which relative positions of said vibrator projection portion and said driven body are changed. 10. An image pickup apparatus comprising: a vibration-type driving apparatus; a lens configured to be driven by a driven body of said vibration-type driving apparatus; and an image pickup device configured to be provided at a location at which light having passed through said lens forms an image, wherein said vibration-type driving apparatus comprises: at least one vibrator that comprises an electro-mechanical energy conversion element and an elastic body that has a first side to which said electro-mechanical energy conversion element is joined, and has a projecting portion on a second side opposite to the first side; a driven body that comes into pressure contact with said projecting portion; and a drive control circuit that drives said at least one vibrator, wherein elliptical motion is produced in said projecting portion to effect relative movement between said at least one vibrator and said driven body, and said drive control circuit comprises: a controller configured to control said at least one vibrator; and a drive circuit that outputs an alternating-current signal, which is to be applied to said electro-mechanical energy conversion element so as to excite the elliptical motion in said projecting portion, based on an output from said controller, wherein in a case where a ratio of a component in a direction parallel to a driving direction of said driven body to a component in a direction of a thickness of said electro-mechanical energy conversion element in a path of the elliptical motion is defined as an ellipse ratio of the elliptical motion, said control unit controls said drive circuit such that the ellipse ratio of the elliptical motion in a first driving mode is greater than an ellipse ratio of the elliptical motion in a second driving mode in which relative positions of said projecting portion and said driven body are changed. 11. The drive control circuit according to claim 1 , wherein the alternating-current signal includes a first alternating-current voltage and a second alternating-vol