Power supply circuit

What is claimed is: 1. A power supply circuit comprising: a switching circuit; and a switching control section configured to calculate a current control value based on a comparison result between a smoothed voltage of an output of the switching circuit and a target value, and to control a dead time of the switching circuit based on the current control value, wherein the switching control section includes a dead time compensation circuit configured to control the dead time of the switching circuit so that the current control value becomes closer to a minimum value, wherein the dead time compensation circuit includes a dead time search part configured to search for the dead time, a current control value observation part configured to observe the current control value when the dead time is searched for, and a current control value determination part configured to determine whether the current control value is minimum, based on a comparison result between the current control value observed at a previous time and the current control value observed at a present time. 2. The power supply circuit according to claim 1 , wherein the switching control section is configured to control switching of the switching circuit based on a comparison result between the current control value and an output current output from the switching circuit. 3. The power supply circuit according to claim 2 , wherein the switching control section is configured to calculate the current control value so that the smoothed voltage becomes closer to the target value. 4. The power supply circuit according to claim 1 , wherein, when the dead time is changed, a minimum point of the current control value agrees with a maximum point of conversion efficiency. 5. The power supply circuit according to claim 1 , further comprising: a smoothing circuit configured to smooth an output current of the switching circuit. 6. The power supply circuit according to claim 1 , wherein the dead time search part is configured to start searching for the dead time from a maximum value of the dead time, and to search for an optimum dead time while reducing the dead time by a minute value. 7. The power supply circuit according to claim 1 , wherein the dead time search part is configured to start searching for the dead time from a previous optimum value of the dead time, and to search for an optimum dead time while increasing and/or reducing the dead time by a minute value. 8. The power supply circuit according to claim 1 , wherein the switching control section includes a digital compensator configured to calculate the current control value based on a comparison result between the smoothed voltage and the target value, and a comparator configured to compare the current control value with an output current output from the switching circuit. 9. The power supply circuit according to claim 8 , further comprising: a ramp generation circuit configured to generate a ramp given to the current control value to be input to the comparator, and an adder configured to add the ramp to the current control value. 10. The power supply circuit according to claim 8 , wherein the digital compensator is configured to calculate the current control value based on a comparison result between the smoothed voltage and the target value. 11. The power supply circuit according to claim 10 , wherein the digital compensator is configured to calculate the current control value so that the smoothed voltage becomes closer to the target value. 12. The power supply circuit according to claim 9 , wherein the ramp generation circuit is configured to start giving the ramp to the current control value so that a time period, from a start point when the ramp is given to the current control value to a matching point when the current control value with the ramp given thereto becomes equal to the output current, depends only on a duty-cycle of the switching circuit. 13. The power supply circuit according to claim 2 , comprising: an A/D converter configured to A/D-convert the smoothed voltage; and an error calculation circuit configured to calculate an error of an output voltage of the A/D-converted relative to a reference value, wherein the digital compensator is configured to calculate the current control value so that the error becomes closer to 0. 14. The power supply circuit according to claim 8 , comprising: a flip-flop configured to be set based on a clock and to be reset based on an output of the comparator, thereby generating a pulse signal, and a dead time addition circuit configured to add the dead time to the pulse signal. 15. The power supply circuit according to claim 5 , wherein the switching circuit includes a high-side switch configured to supply a current to the smoothing circuit from a direct current power supply, and a low-side switch configured to pull a current in the smoothing circuit from ground. 16. The power supply circuit according to claim 15 , comprising a driver configured to generate a PWM signal based on the pulse signal with the dead time added thereto, and to drive the high-side switch and the low-side switch. 17. A power supply circuit comprising: a switching circuit; a switching control section configured to calculate a current control value based on a comparison result between a smoothed voltage of an output of the switching circuit and a target value, and to control a dead time of the switching circuit based on the current control value; and a smoothing circuit configured to smooth the output of the switching circuit, wherein the switching control section includes a dead time compensation circuit configured to control the dead time of the switching circuit so that the current control value becomes closer to a minimum value, wherein the switching circuit includes a high-side switch configured to supply a current to the smoothing circuit from a direct current power supply, and a low-side switch configured to pull a current in the smoothing circuit from ground, wherein further comprising a driver configured to generate a PWM signal based on the pulse signal with the dead time added thereto, and to drive the high-side switch and the low-side switch, and wherein the high-side switch is configured to be turned on after a lapse of a first dead time from a rise of the clock and to be turned off at detection of a matching point between an output current of the switching circuit and the current control value, the low-side switch is configured to be turned off at the rise of the clock and to be turned on after a lapse of a second dead time from the detection of the matching point between an output current of the switching circuit and the current control value, and a start point when a ramp is given to the current control value is delayed by the first dead time from a time point when the low-side switch is turned off. 18. A power supply circuit comprising: a switching circuit; a switching control section configured to calculate a current control value based on a comparison result between a smoothed voltage of an output of the switching circuit and a target value, and to control a dead time of the switching circuit based on the current control value; and a smoothing circuit configured to smooth the output of the switching circuit, wherein the switching control section includes a dead time compensation circuit configured to control the dead time of the switching circuit so that the current control value becomes closer to a minimum value, wherein the switching circuit includes a high-side switch co