Vibration actuator control apparatus

What is claimed is: 1. A vibration actuator control device comprising: a first vibration actuator including a first vibrating body and a first contact body in contact with the first vibrating body; a second vibration actuator including a second vibrating body and a second contact body in contact with the second vibrating body; a control unit configured to output a first control signal for controlling driving of the first vibration actuator, and output a second control signal for controlling driving of the second vibration actuator; and a driving unit configured to (i) output a plurality of first alternating-current voltages based on the first control signal, for driving the first vibration actuator, and (ii) output a plurality of second alternating-current voltages based on the second control signal, for driving the second vibration actuator, wherein the control unit has a common frequency setting unit, wherein the control unit individually sets a phase difference of a first alternating-current voltage and a phase difference of a second alternating-current voltage or a voltage value of the first alternating-current voltage and a voltage value of the second alternating-current voltage based on the first control signal and the second control signal, respectively, wherein the common frequency setting unit commonly sets a frequency of the first alternating-current voltage and a frequency of the second alternating-current voltage, wherein the control unit individually sets the phase difference of the first alternating-current voltage and the phase difference of the second alternating-current voltage based on the first control signal and the second control signal, respectively, and commonly sets the frequency of the first alternating-current voltage and the frequency of the second alternating-current voltage, wherein, in a case where the phase difference of the first alternating-current voltage is a first phase difference limit value which is a first predetermined limit value, the control unit determines whether a first driving speed which is a speed of the first contact body relative to the first vibrating body, is smaller than a first target speed which is a target driving speed and, in a case where the phase difference of the second alternating-current voltage is a second phase difference limit value which is a second predetermined limit value, the control unit determines whether a second driving speed which is a speed of the second contact body relative to the second vibrating body, is smaller than a second target speed which is a target driving speed, and wherein, in a case where the control unit determines that at least either the first driving speed is smaller than the first target speed or the second driving speed is smaller than the second target speed, the control unit lowers the frequency of the first alternating-current voltage and the frequency of the second alternating-current voltage in commonly setting the frequency of the first alternating-current voltage and the frequency of the second alternating-current voltage. 2. The vibration actuator control device according to claim 1 , wherein the control unit individually sets the phase difference of the first alternating-current voltage and the phase difference of the second alternating-current voltage based on the first control signal and the second control signal, respectively, so as to bring a first driving speed which is a speed of the first contact body relative to the first vibrating body and a second driving speed which is a speed of the second contact body relative to the second vibrating body closer to each other. 3. The vibration actuator control device according to claim 1 , wherein the control unit commonly sets the voltage value of the first alternating-current voltage and the voltage value of the second alternating-current voltage based on the first control signal and the second control signal, respectively. 4. The vibration actuator control device according to claim 1 , wherein the first alternating-current voltage is generated from a first direct-current voltage supplied from a first power supply, and wherein the second alternating-current voltage is generated from a second direct-current voltage supplied from a second power supply. 5. The vibration actuator control device according to claim 4 , wherein the first power supply and the second power supply are different power supplies. 6. The vibration actuator control device according to claim 1 , wherein each of the voltage value of the first alternating-current voltage and the voltage value of the second alternating-current voltage is any of a maximum value, a root mean square value, and an average value of an alternating-current voltage. 7. An optical apparatus comprising: the vibration actuator control device according to claim 1 ; and an optical member. 8. An electronic device comprising: the vibration actuator control device according to claim 1 ; and a member. 9. A vibration actuator control device comprising: a first vibration actuator including a first vibrating body and a first contact body in contact with the first vibrating body; a second vibration actuator including a second vibrating body and a second contact body in contact with the second vibrating body; a control unit configured to output a first control signal for controlling driving of the first vibration actuator, and output a second control signal for controlling driving of the second vibration actuator; and a driving unit configured to (i) output a plurality of first alternating-current voltages based on the first control signal, for driving the first vibration actuator, and (ii) output a plurality of second alternating-current voltages based on the second control signal, for driving the second vibration actuator, wherein the control unit has a common frequency setting unit, wherein the control unit individually sets a phase difference of a first alternating-current voltage and a phase difference of a second alternating-current voltage or a voltage value of the first alternating-current voltage and a voltage value of the second alternating-current voltage based on the first control signal and the second control signal, respectively, wherein the common frequency setting unit commonly sets a frequency of the first alternating-current voltage and a frequency of the second alternating-current voltage, wherein the driving unit generates a first pulse signal having a first pulse width based on the first control signal and generates a second pulse signal having a second pulse width based on the second control signal, and commonly sets the voltage value of the first alternating-current voltage based on the first pulse signal and sets the voltage value of the second alternating-current voltage based on the second pulse signal, wherein the control unit individually sets the voltage value of the first alternating-current voltage and the voltage value of the second alternating-current voltage based on the first control signal and the second control signal, respectively, and commonly sets the frequency of the first alternating-current voltage and the frequency of the second alternating-current voltage, wherein, in a case where the first pulse width is a limit value of the first pulse width which is a first predetermined limit value, the control unit determines whether a first driving speed which is a speed of the first contact body relative to the first vibrating body is smaller than a first target speed which is a target driving speed and, in a case where the second pulse width is a limit value of the second pulse width which is a second predetermined limit value, the control unit determines whether a second driving speed which is a speed