Power management circuit and electronic device employing the same

What is claimed is: 1. A power management circuit for controlling a plurality of power circuits to generate power supply voltages at least for a processor, the power management circuit comprising: a real time clock that generates clock signals with a predetermined frequency; a battery terminal connected to a secondary battery; a DC input terminal that receives a DC voltage; a charging circuit that charges the secondary battery using the DC voltage; a protection switch connected to the DC input terminal, and connected in parallel to the charging circuit; a system terminal connected to a terminal of a power-on key having another terminal connected to a ground, the charging circuit and the protection switch; a power-on terminal connected to the terminal of the power-on key, which is connected to the system terminal, wherein a potential of the power-on terminal is pulled down to the ground potential when the power-on key is pressed, and the potential of the power-on terminal is pulled up to a system voltage when the power-on key is not pressed; a power-on detecting unit that monitors a voltage at the power-on terminal based on the system voltage and asserts a start signal if it is determined using the clock signals that the power-on key is pressed and held for a predetermined time period before the processor is powered on; and a power management controller that selects a first voltage corresponding to the DC voltage as the system voltage when the DC voltage is supplied to the DC input terminal, selects a second voltage corresponding to a secondary battery voltage as the system voltage when the DC voltage is not supplied to the DC input terminal, and, upon the start signal being asserted, starts up the plurality of power circuits in a predetermined sequence using the clock signals, wherein the system terminal supplies the system voltage to the power-on key. 2. The power management circuit of claim 1 , wherein the power management controller cancels starting-up based on the power-on key when the DC voltage is not applied and the secondary battery voltage is lower than a first predetermined threshold value. 3. The power management circuit of claim 1 , further comprising: an interface circuit that receives start-up data indicative of a start-up time from the processor; and a memory that stores therein the start-up data received by the interface circuit, wherein the power management controller starts up the plurality of power circuits in a predetermined sequence at the time indicated in the start-up data. 4. The power management circuit of claim 1 , wherein the power management controller shuts down the plurality of power circuits in a predetermined sequence upon receiving a shut-down signal to instruct to shut down the plurality of power circuits from the processor. 5. The power management circuit of claim 1 , wherein if the secondary battery voltage is lower than a second threshold value, the power management controller notifies the processor. 6. The power management circuit of claim 5 , wherein if the secondary battery voltage becomes lower than the second threshold value while the plurality of power circuits is shut down, the power management controller notifies the processor after starting up the plurality of power circuits in a predetermined sequence. 7. The power management circuit of claim 1 , further comprising: an interface circuit configured to receive shut-down data indicative of a shut-down time from the processor; and a memory configured to store therein the shut-down data received by the interface circuit, wherein the power management controller shuts down the plurality of power circuits in a predetermined sequence at the time indicated in the shut-down data. 8. The power management circuit of claim 1 , further comprising the plurality of power circuits controlled by the power management controller. 9. The power management circuit of claim 1 , wherein the power management circuit is integrated within a semiconductor substrate. 10. An electronic device comprising the power management circuit of claim 1 . 11. An electronic device comprising: a battery; a processor; a peripheral circuit; and the power management circuit of claim 1 , wherein the power management circuit receives a battery voltage from the battery or a DC voltage from a DC power source; generates a plurality of supply voltages for the processor and the peripheral circuit; and charges the battery using the DC voltage. 12. The power management circuit of claim 1 , wherein the protection switch includes a transistor connected between the DC input terminal and the system terminal and a gate controller controlling a gate voltage of the transistor.