Methods and apparatus for determining power consumption

What is claimed is: 1. A refrigerator comprising: a compressor; an input current detector to detect input current of alternating current (AC) power from a commercial AC power source inputted to the refrigerator; a converter to convert the inputted AC power into direct current (DC) power; a capacitor to store the converted DC power; a relay located between the commercial AC power source and the converter; an AC heater connected to the relay, and operated based on the received input AC power by turn-on operation of the relay; a voltage dropper to output dropped DC power using the DC power from the capacitor; a main microcomputer to operate based on the dropped DC power from voltage dropper; a DC heater to operate based on the dropped DC power from voltage dropper; an inverter to output AC power using the converted DC power from the capacitor for driving of the compressor; a DC terminal voltage detector to detect voltage at two terminals of the capacitor; and a compressor microcomputer to control the inverter and to calculate refrigerator power consumption based on the detected input current and the detected DC terminal voltage, wherein the input current detector located between the commercial AC power source and the relay, wherein the compressor microcomputer includes a power factor table of power factor values corresponding to whether or not the compressor is operated, wherein the refrigerator power consumption is calculated by the compressor microcomputer based on the detected input current, the detected DC terminal voltage, and the power factor table, and wherein a greater power factor value is set by the compressor microcomputer when the AC heater is operated than a power factor value when the compressor is operated, and the refrigerator power consumption is calculated by the compressor microcomputer based on the set power factor value. 2. The refrigerator according to claim 1 , wherein a greater power factor value is set by the compressor microcomputer when the compressor is operated to supply cold air into a refrigerating compartment than a power factor value when the compressor is operated to supply cold air into a freezing compartment, and the refrigerator power consumption is calculated by the compressor microcomputer based on the set power factor value. 3. The refrigerator according to claim 1 , wherein the refrigerator power consumption is calculated by the compressor microcomputer using a first power factor value when the compressor is operated to supply cold air into a freezing compartment, wherein the refrigerator power consumption is calculated by the compressor microcomputer using a second power factor value when the compressor is operated to supply cold air into a refrigerating compartment, wherein the refrigerator power consumption is calculated by the compressor microcomputer using a third power factor value when the AC heater is operated, and wherein the first power factor value is less than the second power factor value, and the second power factor value is less than the third power factor value. 4. A refrigerator comprising: a compressor; an input current detector to detect input current of alternating current (AC) power from a commercial AC power source inputted to the refrigerator; a converter to convert the inputted AC power into direct current (DC) power; a capacitor to store the converted DC power; a relay located between the commercial AC power source and the converter; an AC heater connected to the relay, and operated based on the received input AC power by turn-on operation of the relay; a voltage dropper to output dropped DC power using the DC power from the capacitor; a main microcomputer to operate based on the dropped DC power from voltage dropper; a DC heater to operate based on the dropped DC power from voltage dropper; an inverter to output AC power using the converted DC power from the capacitor for driving of the compressor; a DC terminal voltage detector to detect voltage at two terminals of the capacitor; and a compressor microcomputer to control the inverter and to calculate refrigerator power consumption based on the detected input current and the detected DC terminal voltage, a relay located between the commercial AC power source and the converter; an AC heater connected to the relay, and operated based on the received input AC power by turn-on operation of the relay; and a memory, wherein power factor values respectively corresponding to a case of the compressor being operated to supply cold air into a freezing compartment, a case of the compressor being operated to supply cold air into a refrigerating compartment, and a case of the AC heater being operated are stored as a power factor table in the memory or the compressor microcomputer, and wherein a greater power factor value is set by the compressor microcomputer when the AC heater is operated than a power factor value when the compressor is operated, and the refrigerator power consumption is calculated by the compressor microcomputer based on the set power factor value. 5. The refrigerator according to claim 1 , wherein the refrigerator power consumption is calculated by the compressor microcomputer based on whether the compressor is operated or not and whether the AC heater is operated or not. 6. The refrigerator according to claim 1 , further comprising: a display, wherein the main microcomputer controls the display, wherein the calculated refrigerator power consumption is transmitted by the compressor microcomputer to the main microcomputer, and wherein the display of the received refrigerator power consumption on the display is controlled by the main microcomputer. 7. The refrigerator according to claim 6 , wherein the display is controlled by the main microcomputer to display refrigerator power consumption information for a prescribed period, to compare and display refrigerator power consumption information between different periods, to display refrigerator power consumption information at a given interval, or to display refrigerator power consumption information for a given time. 8. A home appliance comprising: an input current detector to detect input current of alternating current (AC) power from a commercial AC power source inputted to the home appliance; a converter to convert the inputted AC power into direct current (DC) power; a capacitor to store the converted DC power; a relay located between the commercial AC power source and the converter; an AC heater connected to the relay, and operated based on the received input AC power by turn-on operation of the relay; a voltage dropper to output dropped DC power using the DC power from the capacitor; a main microcomputer to operate based on the dropped DC power from voltage dropper; a DC heater to operate based on the dropped DC power from voltage dropper; an inverter to output AC power to a load using the DC power from the capacitor; a DC terminal voltage detector to detect voltage at two terminals of the capacitor; and a motor microcomputer to control the inverter and to calculate home appliance power consumption based on the detected input current and the detected DC terminal voltage, wherein the input current detector located between the commercial AC power source and the relay, wherein the motor microcomputer includes a power factor table of power factor values corresponding to whether or not the load is operated, wherein the motor microcomputer calculates the refrigerator power consumption based on the detected input current, the detected DC terminal voltage, and the power factor table, and wherein a greater power factor value is set by the compressor microcomputer when the AC heater is operated than a power factor valu