Switching power source device, method of controlling switching power source device, and circuit for controlling switching power source device

What is claimed is: 1 . A switching power source device, comprising: a transformer having a primary coil, a secondary coil, and an auxiliary coil disposed next to the primary coil on a same side of the primary coil; switching elements connected to the primary coil of the transformer, the switching elements being turned ON and OFF to convert inputted direct current into high-frequency current and supply said high-frequency current to the primary coil of the transformer, thereby generating high-frequency current at the secondary coil of the transformer; a rectifying circuit connected to the secondary coil of the transformer to rectify the high-frequency current generated at the secondary coil; a control circuit controlling said switching elements, the control circuit including an oscillation circuit that sets a switching frequency of said switching elements and a burst control circuit that controls a burst operation in a standby mode; and an output voltage detecting unit measuring an output voltage corresponding to the high frequency current generated at the secondary coil of the transformer, wherein said burst control circuit receives a voltage generated at the auxiliary coil of said transformer and generates, via a charging/discharging unit included in the burst control circuit, a first frequency control voltage based on the voltage of the auxiliary coil, wherein, in said standby mode, the burst control circuit: compares said voltage of said auxiliary coil to a first threshold and, when the voltage of said auxiliary coil is lower than said first threshold, generates the first frequency control voltage that gradually increases, and compares the voltage of said auxiliary coil to a second threshold that is greater than the first threshold and, when the voltage of said auxiliary coil is greater than said second threshold, generates said first frequency control voltage that gradually decreases, and wherein said oscillation circuit receives said first frequency control voltage from said burst control circuit and receives, from the output voltage detecting unit, a second frequency control voltage corresponding to said output voltage, said oscillation circuit setting the switching frequency of said switching elements in accordance with a lower of said first frequency control voltage and said second frequency control voltage. 2 . The switching power source device according to claim 1 , further comprising: a resonant capacitor connected to said primary coil of said transformer, wherein said switching power source device is a current-resonant switching power source device. 3 . The switching power source device according to claim 1 , wherein said first frequency control voltage is a charging voltage of a capacitor that is charged and discharged by said charging/discharging unit. 4 . The switching power source device according to claim 1 , wherein said second frequency control voltage decreases as the output voltage of said secondary coil increases. 5 . The switching power source device according to claim 1 , wherein the switching frequency of said switching elements increases as said lower of said first frequency control voltage and said second frequency control voltage decreases, and becomes 0 upon said lower of said first frequency control voltage and said second frequency control voltage dropping below a prescribed value. 6 . The switching power source device according to claim 1 , wherein a temporal change in the decreasing of said first frequency control voltage is faster than a temporal change in the increasing of said first frequency control voltage. 7 . A method of controlling a switching power source device that includes a transformer having a primary coil, a secondary coil, and an auxiliary coil disposed next to the primary coil on a same side of the primary coil; switching elements connected to the primary coil of the transformer, the switching elements being turned ON and OFF to convert inputted direct current into high-frequency current and supply said high-frequency current to the primary coil of the transformer, thereby generating high-frequency current at the secondary coil of the transformer; and a rectifying circuit connected to the secondary coil of the transformer to rectify the high-frequency current generated at the secondary coil of the transformer, the method comprising: receiving, by a burst control circuit that controls a burst operation in a standby mode, a voltage generated at the auxiliary coil of said transformer; generating, via a charging/discharging unit included in the burst control circuit, a first frequency control voltage based on the voltage of said auxiliary coil, said burst control circuit comparing said voltage of said auxiliary coil to a first threshold and, when the voltage of said auxiliary coil is lower than said first threshold, generating said first frequency control voltage that is gradually increased, and comparing the voltage of said auxiliary coil to a second threshold that is greater than the first threshold and, when the voltage of said auxiliary coil is greater than said second threshold, generating, via the charging/discharging unit included in said burst control circuit, said first frequency control voltage that is gradually decreased; receiving, by an oscillation circuit connected to said primary coil, said first frequency control voltage from said burst control circuit and receiving, from an output voltage detecting unit, a second frequency control voltage corresponding to an output voltage related to the high-frequency current generated at the second coil of the transformer; and setting, by said oscillation circuit, a switching frequency of said switching elements in accordance with a lower of said first frequency control voltage and said second frequency control voltage. 8 . The method of controlling a switching power source device according to claim 7 , further comprising: a resonant capacitor connected to said primary coil of said transformer, wherein said switching power source device is a current-resonant switching power source device. 9 . The method of controlling a switching power source device according to claim 7 , wherein said first frequency control voltage is a charging voltage of a capacitor that is charged and discharged by said charging/discharging unit. 10 . The method of controlling a switching power source device according to claim 7 , wherein said second frequency control voltage decreases as the output voltage of said secondary coil increases. 11 . The method of controlling a switching power source device according to claim 7 , wherein the switching frequency of said switching elements increases as said lower of said first frequency control voltage and said second frequency control voltage decreases, and becomes 0 upon said lower said first frequency control voltage and said second frequency control voltage dropping below a prescribed value. 12 . The method of controlling a switching power source device according to claim 7 , wherein a temporal change in the decreasing of said first frequency control voltage is faster than a temporal change in the increasing of said first frequency control voltage. 13 . A control circuit to be connected to a switching power source device to control said switching power source device, said switching power source device being a current-resonant switching power source device that includes: a transformer having a primary coil, a secondary coil, and an auxiliary coil disposed next to the primary coil on a same side of the primary coil; switching elements connected to the primary coil of the transformer, the switching elements b