Driving circuit and driving method thereof

What is claimed is: 1. A driving circuit for a single-phase brushless DC fan, which is used for driving a motor containing a first coil and a second coil, each of which comprises a first terminal and a second terminal, the driving circuit comprising: a switching unit coupled with the first coil and the second coil; an operation unit coupled with the switching unit, the first coil and the second coil; and a control unit generating a switching signal, wherein the switching unit receives the switching signal for driving the motor, and the control unit detects a rotation speed of the motor, wherein, when the rotation speed of the motor is greater than a predetermined rotation speed, the control unit outputs a first operation signal to the operation unit so that the first terminal of the first coil is coupled to the first terminal of the second coil and the second terminal of the first coil is coupled to the second terminal of the second coil, and when the rotation speed of the motor is less than or equal to the predetermined rotational speed, the control unit outputs a second operation signal to the operation unit so that the operation unit couples the second terminal of the first coil to the first terminal of the second coil. 2. The driving circuit of claim 1 , wherein the switching unit has a first switching element, a second switching element, a third switching element and a fourth switching element, and the switching signal controls to turn on the first switching element and the fourth switching element and to turn off the second switching element and the third switching element. 3. The driving circuit of claim 1 , wherein the switching unit has a first switching element, a second switching element, a third switching element and a fourth switching element, and the switching signal controls to turn off the first switching element and the fourth switching element and to turn on the second switching element and the third switching element. 4. The driving circuit of claim 1 , wherein the switching unit has a first switching element, a second switching element, a third switching element, a fourth switching element, a fifth switching element, a sixth switching element, a seventh switching element and an eighth switching element, and the switching signal controls to turn on the first switching element, the third switching element, the sixth switching element, and the eighth switching element and to turn off the second switching element, the fourth switching element, the fifth switching element, and the seventh switching element. 5. The driving circuit of claim 1 , wherein the switching unit has a first switching element, a second switching element, a third switching element, a fourth switching element, a fifth switching element, a sixth switching element, a seventh switching element and an eighth switching element, and the switching signal controls to turn off the first switching element, the third switching element, the sixth switching element, and the eighth switching element and to turn on the second switching element, the fourth switching element, the fifth switching element, and the seventh switching element. 6. A driving method applied to a driving circuit of a single-phase brushless DC fan, which is used for driving a motor containing a first coil and a second coil, each of which comprises a first terminal and a second terminal, the driving circuit comprises a switching unit, an operation unit and a control unit, the switching unit is coupled with the first coil and the second coil, the operation unit is coupled with the switching unit, the first coil and the second coil, the control unit generates a switching signal, the switching unit receives the switching signal for driving the motor, and the control unit detects a rotation speed of the motor, the driving method comprising: when the rotation speed of the motor is greater than a predetermined rotation speed, outputting a first operation signal from the control unit to the operation unit so that the first terminal of the first coil is coupled to the first terminal of the second coil and the second terminal of the first coil is coupled to the second terminal of the second coil; and when the rotation speed of the motor is less than or equal to the predetermined rotational speed, outputting a second operation signal from the control unit to the operation unit so that the operation unit couples the second terminal of the first coil to the first terminal of the second coil. 7. The driving method of claim 6 , wherein the switching unit has a first switching element, a second switching element, a third switching element and a fourth switching element, and in the step of receiving the switching signal by the switching unit, the switching signal controls to turn on the first switching element and the fourth switching element and to turn off the second switching element and the third switching element. 8. The driving method of claim 6 , wherein the switching unit has a first switching element, a second switching element, a third switching element and a fourth switching element, and in the step of receiving the switching signal by the switching unit, the switching signal controls to turn off the first switching element and the fourth switching element and to turn on the second switching element and the third switching element. 9. The driving method of claim 6 , wherein the switching unit has a first switching element, a second switching element, a third switching element, a fourth switching element, a fifth switching element, a sixth switching element, a seventh switching element and an eighth switching element, and in the step of receiving the switching signal by the switching unit, the switching signal controls to turn on the first switching element, the third switching element, the sixth switching element, and the eighth switching element and to turn off the second switching element, the fourth switching element, the fifth switching element, and the seventh switching element. 10. The driving method of claim 6 , wherein the switching unit has a first switching element, a second switching element, a third switching element, a fourth switching element, a fifth switching element, a sixth switching element, a seventh switching element and an eighth switching element, and in the step of receiving the switching signal by the switching unit, the switching signal controls to turn off the first switching element, the third switching element, the sixth switching element, and the eighth switching element and to turn on the second switching element, the fourth switching element, the fifth switching element, and the seventh switching element.