Switching mode converter having 100% duty cycle mode and method for controlling thereof

What is claimed is: 1. A switching mode converter, comprising: a switching element connected between one side of a first semiconductor device and an input power, wherein another side of the first semiconductor device is connected to a ground power; a bootstrap capacitor configured such that one side of the bootstrap capacitor is connected to the one side of the first semiconductor device; a control unit configured to control a first output current or a first output voltage of a common charge pump provided to the switching element and the bootstrap capacitor in order to control a charging state of the bootstrap capacitor and a gate voltage of the switching element; and a current source connected between an output terminal of the common charge pump and other side of the bootstrap capacitor, wherein the control unit controls a second output current of the current source based on: a charging voltage of the bootstrap capacitor; and a relationship between the charging voltage of the bootstrap capacitor and the second output current of the current source wherein the relationship requires an increased level of the second output current of the current source when the charging voltage of the bootstrap capacitor decreases. 2. The switching mode converter of claim 1 , wherein the control unit is further configured to detect the charging voltage of the bootstrap capacitor. 3. The switching mode converter of claim 1 , wherein the current source is further configured to provide the second output current having linearly regulated level controlled by the control unit. 4. A switching mode converter, comprising: a switching element connected between one side of a first semiconductor device and an input power, wherein another side of the first semiconductor device is connected to a ground power; a bootstrap capacitor configured such that one side of the bootstrap capacitor is connected to the one side of the first semiconductor device; a common charge pump is configured to: receive one of a first reference voltage and a second reference voltage as an input reference voltage; and provide a first output voltage corresponding to the received one reference voltage to other side of the bootstrap capacitor; and a control unit is configured to: control a first output current or the first output voltage of the common charge pump provided to the switching element and the bootstrap capacitor in order to control a charging state of the bootstrap capacitor and a gate voltage of the switching element; determine when a duty cycle of the switching element is 100%; determine that the second reference voltage is input to the common charge pump when the duty cycle is 100%; and adjust a voltage level of the second reference voltage based on a status of the switching element when the duty cycle is 100%. 5. The switching mode converter of claim 4 , wherein the control unit is further configured to: adjust the voltage level of the second reference voltage in response to a voltage level of the input power when the duty cycle is 100%; and input the second reference voltage having the adjusted voltage level to the common charge pump. 6. The switching mode converter of claim 4 , wherein the control unit is further configured to: adjust the voltage level of the second reference voltage in response to an output voltage of the switching mode converter when the duty cycle is 100%; and input the second reference voltage having the adjusted voltage level to the common charge pump. 7. The switching mode converter of claim 4 , wherein the control unit is further configured to determine that the duty cycle is 100% if a detected ON-time of the switching element is equal to or longer than a predetermined reference time upon detecting the ON-time or if a detected charging voltage of the bootstrap capacitor is equal to or lower than a predetermined threshold voltage upon detecting the charging voltage. 8. A method of controlling a switching mode converter, comprising: charging, by a control circuit, a bootstrap capacitor configured such that one side thereof is connected to one side of a first semiconductor device, another side of the first semiconductor device is connected to a ground power; turning on, by the control circuit, a switching element connected between the one side of the first semiconductor device and an input power; controlling, by the control circuit, a first output current or a first output voltage of a common charge pump provided to the switching element and the bootstrap capacitor in order to control a charging state of the bootstrap capacitor and a gate voltage of the switching element; and controlling, by the control circuit, a second output current of a current source connected between an output terminal of the common charge pump and other side of the bootstrap capacitor, based on: a charging voltage of the bootstrap capacitor; and a relationship between the charging voltage of the bootstrap capacitor and the second output current of the current source wherein the relationship requires an increased level of the second output current of the current source when the charging voltage of the bootstrap capacitor decreases. 9. The method of claim 8 , further comprising detecting, by the control circuit, the charging voltage of the bootstrap capacitor. 10. A method of controlling a switching mode converter, comprising: charging, by a control circuit, a bootstrap capacitor configured such that one side thereof is connected to one side of a first semiconductor device, another side of the first semiconductor device is connected to a ground power; turning on, by the control circuit, a switching element connected between the one side of the first semiconductor device and an input power; controlling, by the control circuit, a first output current or a first output voltage of a common charge pump provided to the switching element and the bootstrap capacitor in order to control a charging state of the bootstrap capacitor and a gate voltage of the switching element; controlling the common charge pump, by the control circuit, to receive one of a first and reference voltage and a second reference voltage and to provide the first output voltage corresponding to the received one reference voltage to the other side of the bootstrap capacitor; determining, by the control circuit, whether a duty cycle of the switching element is 100%; selecting, by the control circuit, the second reference voltage is input to the common charge pump when the duty cycle is 100%; and adjusting, by the control circuit, a voltage level of the second reference voltage based on a status of the switching element when the duty cycle is 100%. 11. The method of claim 10 , wherein the adjusting is further configured to: adjusting, by the control circuit, the voltage level of the second reference voltage in response to a voltage level of the input power when the duty cycle is 100%; and controlling, by the control circuit, the second reference voltage having the adjusted voltage level to be input to the common charge pump. 12. The method of claim 10 , wherein the adjusting is further configured to: adjusting, by the control circuit, a voltage level of the second reference voltage in response to an output voltage generated based on a topology of the switching mode converter including the switching element, an inductor and a capacitor when the duty cycle is 100%, and controlling, by the control circuit, the second reference voltage having the adjusted voltage level to be input to the common charge pump.