Electric working machine and method for smoothing AC power supplied thereto

What is claimed is: 1. An electric working machine comprising: a motor; a rectifier circuit configured to rectify an AC power received from an AC power supply and to output a rectified power; a bus line configured to receive the rectified power from the rectifier circuit; a capacitor configured to smooth the rectified power to thereby generate a smoothed power, the capacitor including a first electrode and a second electrode, the first electrode being electrically coupled with the bus line and being arranged such that the first electrode has a voltage higher than a voltage of the second electrode in response to the capacitor being charged with the rectified power; a drive circuit electrically coupled with the bus line, the drive circuit being configured to drive the motor based on the smoothed power; a switching element electrically coupled with the second electrode; a resistive element directly electrically coupled with the second electrode; a voltage detection circuit coupled with the bus line, the voltage detection circuit being configured to output a voltage detection signal indicating a voltage value of the bus line; and a control circuit configured to: acquire a peak voltage value based on the voltage detection signal, the peak voltage value corresponding to a maximum absolute value of a voltage of the AC power; acquire a capacitor voltage value based on the voltage detection signal, the capacitor voltage value corresponding to the value of the charging voltage across the capacitor; and bring the switching element into conduction in response to a difference between the peak voltage value and the capacitor voltage value becoming smaller than or equal to a difference threshold value. 2. The electric working machine according to claim 1 , wherein the switching element and/or the resistive element are/is configured to allow a charging current from the bus line to the capacitor and a discharging current from the capacitor to the bus line to flow through the switching element and/or the resistive element. 3. The electric working machine according to claim 1 , wherein the second electrode is electrically coupled with a ground line through the switching element. 4. The electric working machine according to claim 1 , wherein the second electrode is electrically coupled with a ground line through the resistive element. 5. The electric working machine according to claim 1 , wherein the resistive element includes: a first end electrically coupled with the second electrode without through the switching element; and a second end, and wherein the second electrode is electrically coupled with a ground line through the first end and the second end of the resistive element. 6. An electric working machine comprising: a motor; a rectifier circuit configured to rectify an AC power received from an AC power supply and to output a rectified power; a bus line configured to receive the rectified power from the rectifier circuit; a capacitor configured to smooth the rectified power to thereby generate a smoothed power, the capacitor including a first electrode and a second electrode, the first electrode being electrically coupled with the bus line and being arranged such that the first electrode has a voltage higher than a voltage of the second electrode in response to the capacitor being charged with the rectified power; a drive circuit electrically coupled with the bus line, the drive circuit being configured to drive the motor based on the smoothed power; a switching element electrically coupled with the second electrode; a resistive element directly electrically coupled with the second electrode; a voltage detection circuit coupled with the bus line, and configured to output a voltage detection signal indicating a voltage value of the bus line; and a control circuit programmed to perform: a first function to acquire a peak voltage value based on the voltage detection signal, the peak voltage value corresponding to a maximum absolute value of a voltage of the AC power; a second function to acquire a capacitor voltage value based on the voltage detection signal, the capacitor voltage value corresponding to a value of a charging voltage across the capacitor; and a third function to bring the switching element into conduction in response to a difference between the peak voltage value and the capacitor voltage value becoming smaller than or equal to a difference threshold value.