Electronic device for charging battery based on direct charging and operating method of the electronic device

What is claimed is: 1. An electronic device comprising: a charging integrated circuit (IC) including a direct charging circuit configured to charge a battery; and an application processor configured to issue a request to output a maximum voltage corresponding to a target current to an external power source, perform a ramp-up operation on a charging current input to the charging IC based on the maximum voltage, compensate for a difference between the charging current and the target current in response to the charging current entering a constant current period, and enter a sleep mode during the constant current period in response to the charging current reaching the target current, wherein the ramp-up operation includes increasing the charging current from a first positive current at a first time to a second positive current at a subsequent second time, and wherein the second positive current is equivalent to the target current corresponding to the maximum voltage. 2. The electronic device of claim 1 , wherein when a level of the charging current is greater than a level of the target current, the application processor is configured to transmit information issuing a command to decrease an output current, to the external power source, and when the level of the charging current is less than the level of the target current, the application processor is configured to transmit information issuing a command to increase the output current to the external power source. 3. The electronic device of claim 2 , wherein the application processor is configured to increase a count value by one when transmitting the information issuing the command to decrease the output current and when transmitting the information issuing the command to increase the output current, and when the count value is greater than a predefined first number of times, the application processor is configured to bypass the transmitting the information. 4. The electronic device of claim 3 , wherein the application processor is configured to compare a level of a first varied charging current with the level of the target current in response to transmitting the information issuing the command to decrease the output current, and when the level of the first varied charging current is less than the level of the target current, the application processor is configured to enter the sleep mode, and wherein the application processor is further configured to compare a level of a second varied charging current with the level of the target current in response to transmitting the information issuing the command to increase the output current, and when the level of the second varied charging current is greater than the level of the target current, the application processor is configured to enter the sleep mode. 5. The electronic device of claim 3 , wherein when the level of the charging current is less than an upper bound of the target current and is greater than a lower bound of the target current, the application processor is configured to enter the sleep mode. 6. The electronic device of claim 5 , wherein when the level of the charging current is less than the lower bound of the target current, the application processor is configured to transmit information issuing a command to decrease an output voltage to the external power source. 7. The electronic device of claim 5 , wherein when the level of the charging current is greater than the upper bound of the target current the application processor is configured to determine whether the count value is 0, and when the count value is 0 the application processor is configured to again issue the request to output the maximum voltage corresponding to the target current to the external power source. 8. The electronic device of claim 7 , wherein when the count value is not 0, the application processor is configured to transmit information issuing a command to decrease an output voltage to the external power source. 9. The electronic device of claim 1 , wherein in response to entering a constant voltage period during which a voltage of the battery is maintained to be constant, the application processor is configured to periodically release the sleep mode at predefined times and monitor a reduction in level of the charging current. 10. An operating method of an electronic device including a charging integrated circuit (IC) and an application processor, the operating method comprising: issuing, by the application processor, a request to output a maximum voltage corresponding to a target current to an external power source; performing, by the application processor, a ramp-up operation on a charging current input to the charging IC based on the maximum voltage; compensating, by the application processor, for a difference between the charging current and the target current in response to the charging current entering a constant current period; and entering, by the application processor, a sleep mode during the constant current period in response to the charging current reaching the target current, wherein the ramp-up operation includes increasing the cvc current from a first positive current at a first time to a second positive current at a subsequent second time, and wherein the second positive current is equivalent to the target current corresponding to the maximum voltage. 11. The operating method of claim 10 , further comprising: when a level of the charging current is greater than a level of the target current, transmitting, by the application processor, information issuing a command to decrease an output current to the external power source; and when the level of the charging current is less than the level of the target current, transmitting, by the application processor, information issuing a command to increase the output current to the external power source. 12. The operating method of claim 11 , further comprising: increasing a count value by one when transmitting the information issuing the command to decrease the output current and when transmitting the information issuing the command to increase the output current, and when the count value is greater than a predefined first number of times, bypassing the transmitting the information. 13. The operating method of claim 12 , further comprising: comparing, by the application processor, a level of a first varied charging current with the level of the target current in response to transmitting the information issuing the command to decrease the output current, and when the level of the first varied charging current is less than the level of the target current, entering the sleep mode; and comparing, by the application processor, a level of a second varied charging current with the level of the target current in response to transmitting the information issuing the command to increase the output current, and when the level of the second varied charging current is greater than the level of the target current, entering the sleep mode. 14. The operating method of claim 12 , further comprising: when the level of the charging current is less than an upper bound of the target current and is greater than a lower bound of the target current, entering the sleep mode. 15. The operating method of claim 14 , further comprising: when the level of the charging current is less than the lower bound of the target current, transmitting, by the application processor, information issuing a command to decrease an output voltage to the external power source. 16. The operating method of claim 14 , further comprising: when the level of the charging current is g