Image forming apparatus

What is claimed is: 1 . An image forming apparatus comprising: a rotatable image bearing member; a charging member disposed proximate or in contact with the image bearing member, the charging member charging the image bearing member by applying a voltage having superimposed an AC voltage and a DC voltage as charging voltage during an image forming operation of forming an image on the image bearing member; an image forming unit forming an image on the image bearing member being charged by the charging member; a direct current detection unit capable of detecting a direct current flowing from the charging member to the image bearing member when the charging voltage is applied to the charging member; and a control unit capable of selectively executing a first mode of setting a voltage having superimposed a first AC voltage and the predetermined DC voltage as a charging voltage during an image forming operation, and a second mode of setting a voltage having superimposed a second AC voltage higher than the first AC voltage and the predetermined DC voltage as the charging voltage during the image forming operation, the control unit applying the voltage having superimposed the first AC voltage and the predetermined DC voltage to the charging member, and detecting a direct current flowing from the charging member to the image bearing member via the direct current detection unit during execution of the first mode, and if an absolute value of the detected direct current is lower than a predetermined value, switching the first mode to the second mode and executing the second mode. 2 . The image forming apparatus according to claim 1 , wherein the control unit does not switch modes from the first mode to the second mode if the absolute value of the detected direct current is equal to or higher than the predetermined value in the first mode. 3 . The image forming apparatus according to claim 1 , wherein the predetermined value is an absolute value of DC component of a charging current flowing from the charging member to the image bearing member at a time of charging the image bearing member to a predetermined potential. 4 . The image forming apparatus according to claim 1 , further comprising: an apparatus body; and a temperature detecting unit detecting a temperature within the apparatus body, wherein the control unit executes the first mode if a detected temperature detected by the temperature detecting unit is higher than a set temperature set in advance and executes the second mode without executing the first mode if the detected temperature detected by the temperature detecting unit is lower than the set temperature. 5 . The image forming apparatus according to claim 1 , wherein the control unit applies the voltage having superimposed the second AC voltage and the predetermined DC voltage to the charging member, detects the direct current flowing from the charging member to the image bearing member by the direct current detection unit during execution of the second mode, and stops setting the charging voltage if an absolute value of the detected direct current is lower than the predetermined value. 6 . The image forming apparatus according to claim 1 , wherein the control unit applies the voltage having superimposed the first AC voltage and the predetermined DC voltage to the charging member, detects the direct current flowing from the charging member to the image bearing member by the direct current detection unit, and if the absolute value of the detected direct current is equal to or higher than the predetermined value, sets the voltage having superimposed the first AC voltage and the predetermined DC voltage as the charging voltage during the image forming operation, during execution of the first mode. 7 . The image forming apparatus according to claim 1 , wherein the control unit applies the voltage having superimposed the second AC voltage and the predetermined DC voltage to the charging member, detects the direct current flowing from the charging member to the image bearing member by the direct current detection unit, and if an absolute value of the detected direct current is equal to or higher than the predetermined value, sets the voltage having superimposed the second AC voltage and the predetermined DC voltage as the charging voltage during the image forming operation, during execution of the second mode. 8 . The image forming apparatus according to claim 1 , wherein the control unit applies a plurality of AC voltages to the charging member to set the first AC voltage during execution of the first mode, and the control unit applies a plurality of AC voltages to the charging member to set the second AC voltage during execution of the second mode. 9 . The image forming apparatus according to claim 8 , wherein the control unit applies one or more AC voltages within a non-discharge range and two or more different AC voltages within a discharge range between the charging member and the image bearing member, measures alternating currents for each of the plurality of AC voltages, and sets the first AC voltage based on a relationship between the applied AC voltages and the measured alternating currents, during execution of the first mode, and the control unit applies one or more AC voltages within the non-discharge range and two or more different AC voltages within the discharging range between the charging member and the image bearing member, measures alternating currents for each of the plurality of AC voltages, and sets the second AC voltage based on a relationship between applied AC voltages and the measured alternating currents, during execution of the second mode. 10 . The image forming apparatus according to claim 9 , wherein the control unit calculates a nip current flowing through a nip portion of the image bearing member and the charging member based on a relationship between the applied AC voltage and the measured alternating current in the non-discharge range, calculates a total current flowing through the image bearing member and the charging member during discharge based on the relationship between the applied AC voltage and the measured alternating current in the discharge range, calculates the discharge current based on a difference between the total current and the nip current, and sets an AC voltage according to which the discharge current falls within a predetermined range as the first AC voltage, during execution of the first mode, and the control unit calculates the nip current flowing through the nip portion of the image bearing member and the charging member based on the relationship between the applied AC voltage and the measured alternating current in the non-discharge range, calculates the total current flowing through the image bearing member and the charging member during discharge based on the relationship between the applied AC voltage and the measured alternating current in the discharge range, calculates the discharge current based on a difference between the total current and the nip current, and sets an AC voltage according to which the discharge current falls within a predetermined range as the second AC voltage, during execution of the second mode. 11 . The image forming apparatus according to claim 10 , wherein the predetermined range of the discharge current is 30 through 100 μA. 12 . The image forming apparatus according to claim 8 , wherein the plurality of AC voltages applied to the charging member during execution of the first mode and the plurality of AC voltages applied to the charging member during execution of the second mode are different voltages. 13 . The image forming apparatus according to c