Control circuit and control method for illumination apparatus

What is claimed is: 1. A control circuit for an illumination apparatus, wherein the illumination apparatus comprises: a switching converter that generates an output voltage at an output line thereof; a plurality of light-emitting elements each having one end connected to the output line of the switching converter; a plurality of current drivers that respectively correspond to the plurality of respective light-emitting elements, and each of which is connected to the other end of a corresponding light-emitting element; and the control circuit that controls the switching converter based on a plurality of first detection voltages each of which occurs at the other end of the corresponding one of the plurality of light-emitting elements and a second detection voltage that corresponds to the output voltage at the output line, and wherein the control circuit comprises: an error signal generating unit configured such that (i) in a calibration period, the error signal generating unit is set to a first state in which a difference between a predetermined first reference voltage and a lowest from among the plurality of first detection voltages is amplified so as to generate an error signal, and such that (ii) after the calibration period ends, a difference between the second detection voltage and a second reference voltage is amplified so as to generate the error signal; a pulse modulator that generates a pulse signal according to the error signal; a driver that drives the switching converter according to the pulse signal; a dimming controller that generates a plurality of pulse modulated dimming pulses, so as to control on/off operations of the plurality of current drivers according to the plurality of dimming pulses; and a reference voltage setting unit that determines the second reference voltage according to a largest value of the second detection voltage detected in the calibration period. 2. The control circuit according to claim 1 , wherein, in the calibration period, the dimming controller generates the plurality of dimming pulses each having a duty ratio that provides the corresponding light-emitting element with a maximum forward voltage. 3. The control circuit according to claim 1 , wherein, in the calibration period, the dimming controller generates the plurality of dimming pulses so as to turn on the plurality of light-emitting elements at the same time. 4. The control circuit according to claim 1 , wherein, after the calibration period ends, the error signal generating unit is switchable between the first state and the second state. 5. The control circuit according to claim 4 , wherein, after the calibration period ends, the error signal generating unit is selectively set to one from among the first state and the second state according to the duty ratios of the plurality of dimming pulses. 6. The control circuit according to claim 4 , wherein, when a smallest duty ratio from among the duty ratios of the plurality of dimming pulses is larger than a predetermined threshold value, the error signal generating unit is set to the first state, and wherein, when the smallest duty ratio is smaller than the threshold value, the error signal generating unit is set to the second state. 7. The control circuit according to claim 1 , wherein the error signal generating unit comprises: a first error amplifier that amplifies a difference between the first reference voltage and a lowest voltage from among the plurality of first detection voltages, so as to generate a first error signal; a second error amplifier that amplifies a difference between the second detection voltage and the second reference voltage, so as to generate a second error signal; and a selector that receives the first error signal and the second error signal, that selects the first error signal in the calibration period, and that selects the second error signal after the calibration period ends. 8. The control circuit according to claim 1 , monolithically integrated on a single semiconductor substrate. 9. An illumination apparatus comprising the control circuit according to claim 8 . 10. The illumination apparatus according to claim 9 , wherein the plurality of light-emitting elements are each configured as a light-emitting diode string comprising a plurality of light-emitting diodes connected in series. 11. A display apparatus comprising: a liquid crystal panel; and the illumination apparatus according to claim 9 , configured as a backlight for the liquid crystal panel. 12. A control circuit for an illumination apparatus, wherein the illumination apparatus comprises: a switching converter that generates an output voltage at an output line thereof; a plurality of light-emitting elements each having one end connected to the output line of the switching converter; a plurality of current drivers that respectively correspond to the plurality of respective light-emitting elements, and each of which is connected to the other end of a corresponding light-emitting element; and the control circuit that controls the switching converter based on a plurality of first detection voltages each of which occurs at the other end of the corresponding one of the plurality of light-emitting elements and a second detection voltage that corresponds to the output voltage at the output line, wherein the control circuit comprises: an error signal generating unit that is switchable between (i) a first state in which a difference between a predetermined first reference voltage and a lowest from among the plurality of first detection voltages is amplified so as to generate an error signal, and (2) a second state in which a difference between the second detection voltage and a second reference voltage is amplified so as to generate the error signal; a pulse modulator that generates a pulse signal according to the error signal; a driver that drives the switching converter according to the pulse signal; and a dimming controller that generates a plurality of pulse modulated dimming pulses, so as to control on/off operations of the plurality of current drivers according to the plurality of dimming pulses, and wherein, in a normal lighting period, the error signal generating unit is selectively set to one from among the first state and the second state according to the duty ratios of the plurality of dimming pulses. 13. The control circuit according to claim 12 , wherein, when a smallest duty ratio from among the duty ratios of the plurality of dimming pulses is larger than a predetermined threshold value, the error signal generating unit is set to the first state, and wherein, when the smallest duty ratio is smaller than the threshold value, the error signal generating unit is set to the second state. 14. The control circuit according to claim 12 , wherein, (i) in a calibration period, the error signal generating unit is set to the first state, and wherein the control circuit further comprises a reference voltage setting unit that holds, as the second reference voltage, a largest value of the second detection voltage detected in the calibration period. 15. The control circuit according to claim 12 , monolithically integrated on a single semiconductor substrate. 16. An illumination apparatus comprising the control circuit according to claim 12 . 17. The illumination apparatus according to claim 16 , wherein the plurality of light-emitting elements are each configured as a light-emitting diode string comprising a plurality of light-emitting diodes connected in series. 18. A display apparatus comprising: a