Driving control apparatus, device, optical module and driving control method

What is claimed is: 1. A driving control apparatus comprising: an acquiring unit to acquire a detection signal depending on a position of a lens of an optical module; a driving control unit to generate a driving signal to move the lens to a target position in a focus control or a vibration reduction control based on the detection signal; an output terminal through which the driving signal generated by the driving control unit is output; an oscillation detecting unit to detect, at an object point on a signal path of the driving signal between the driving control unit and the output terminal, whether the driving signal is oscillating or not; and an oscillation suppressing unit to suppress oscillation in the driving signal at the object point on the signal path in response to detecting that the driving signal is oscillating. 2. The driving control apparatus according to claim 1 , wherein the oscillation suppressing unit changes, in response to detecting that the driving signal is oscillating, at least one of phase characteristics and gain characteristics of the driving control unit. 3. The driving control apparatus according to claim 2 , wherein the oscillation detecting unit detects an oscillation frequency of the driving signal at the object point, and the oscillation suppressing unit changes the at least one of the phase characteristics and the gain characteristics of the driving control unit depending on the oscillation frequency. 4. The driving control apparatus according to claim 3 , wherein the oscillation detecting unit detects the oscillation frequency based on timing when a signal value of the driving signal at the object point crosses a threshold. 5. The driving control apparatus according to claim 2 , wherein the oscillation suppressing unit reduces gain of the driving control unit in response to detecting that the driving signal is oscillating. 6. The driving control apparatus according to claim 2 , wherein the oscillation suppressing unit, after suppressing the oscillation in the signal path, determines, according to an instruction from a user or automatically based on a setting, whether maintaining change in the at least one of the phase characteristics and the gain characteristics of the driving control unit, or returning the at least one of the phase characteristics and the gain characteristics of the driving control unit back to original phase characteristics and gain characteristics. 7. The driving control apparatus according to claim 1 , wherein the detection signal is an analog signal. 8. The driving control apparatus according to claim 1 , wherein the detection signal is a digital signal. 9. The driving control apparatus according to claim 1 , wherein the driving control unit has an output driver to control driving amount of the lens. 10. The driving control apparatus according to claim 9 , wherein the output driver has an H-bridge circuit. 11. A device comprising: a sensor to detect the position of the lens; and the driving control apparatus according to claim 1 . 12. The device according to claim 11 , wherein the lens has a magnet; and the sensor is a magnetic sensor. 13. The device according to claim 12 , wherein the magnetic sensor is a hall element. 14. An optical module comprising: the device according to claim 11 ; the lens; and a driving device to drive the lens according to the driving signal from the driving control apparatus. 15. A driving control method comprising: acquiring a detection signal depending on a position of a lens of an optical module; generating, by a driving control unit, a driving signal to move the lens to a target position in a focus control or a vibration reduction control based on the detection signal; outputting, from an output terminal, the driving signal generated by the driving control unit; detecting, at an object point on a signal path of the driving signal between the driving control unit and the output terminal, whether the driving signal is oscillating or not; and suppressing oscillation in the driving signal at the object point on the signal path in response to detecting that the driving signal is oscillating.