Power supply apparatus and image forming apparatus

What is claimed is: 1. A power supply apparatus configured to supply power to a load, comprising: a first line and a second line to each of which an AC voltage is input from an AC power supply; a conversion element configured to convert the AC voltage to be input to the first line or the second line into a current corresponding to the AC voltage; a voltage detection unit comprising a first current transformer, the first current transformer including a primary winding and a secondary winding, the voltage detection unit being configured to detect an AC voltage output from the secondary winding of the first current transformer through supply of the current converted by the conversion element to the primary winding; and a zero cross detection unit configured to detect a zero cross timing of the AC power supply based on the AC voltage detected by the voltage detection unit. 2. A power supply apparatus according to claim 1 , wherein the conversion element comprises a resistor, wherein the resistor has one end connected to the first line and another end connected to one end of the primary winding of the first current transformer, and wherein the primary winding has another end connected to the second line. 3. A power supply apparatus according to claim 1 , wherein the conversion element comprises a first resistor and a second resistor, wherein the first resistor has one end connected to the first line and another end connected to the one end of the primary winding of the first current transformer, and wherein the second resistor has one end connected to the second line and another end connected to another end of the primary winding of the first current transformer. 4. A power supply apparatus according to claim 1 , further comprising a first phase adjusting unit located in a stage following the voltage detection unit and configured to adjust a phase of the AC voltage waveform output from the voltage detection unit, wherein the first phase adjusting unit is configured to adjust a phase of the AC voltage waveform output from the voltage detection unit so as to reduce a phase difference with an AC voltage waveform of the AC power supply. 5. A power supply apparatus according to claim 4 , wherein the zero cross detection unit is configured to detect a zero cross timing of the AC power supply based on the AC voltage waveform subjected to phase adjustment by the first phase adjusting unit. 6. A power supply apparatus according to claim 1 , further comprising a current detection unit configured to detect a current supplied to the load, wherein the current detection unit comprises a second current transformer including a primary winding and a secondary winding and is configured to detect a current value of the current based on a voltage of an AC voltage waveform output to a secondary side of the second current transformer in accordance with the current through supply of the current supplied to the load to the primary winding. 7. A power supply apparatus according to claim 6 , wherein the load has one end connected to the first line and another end connected to one end of the primary winding of the second current transformer, and wherein the primary winding has the another end connected to the second line. 8. A power supply apparatus according to claim 6 , wherein the first phase adjusting unit is configured to adjust a phase of the AC voltage waveform output from the voltage detection unit so as to reduce a phase difference with the AC voltage waveform output from the current detection unit. 9. A power supply apparatus according to claim 6 , further comprising a second phase adjusting unit located in a stage following the current detection unit and configured to adjust a phase of the AC voltage waveform output from the current detection unit, wherein the second phase adjusting unit is configured to adjust a phase of the AC voltage waveform output from the current detection unit so as to reduce a phase difference with the AC voltage waveform of the AC power supply. 10. A power supply apparatus according to claim 9 , wherein the first phase adjusting unit is configured to adjust a phase of the AC voltage waveform output from the voltage detection unit so as to reduce a phase difference with the AC voltage waveform output from the second phase adjusting unit. 11. A power supply apparatus according to claim 6 , further comprising a power calculation unit configured to calculate power supplied to the load, wherein the power calculation unit is configured to calculate an amount of power supplied to the load from the AC power supply based on a current value of a current supplied to the load, which is detected based on the AC voltage waveform output from the current detection unit, and a voltage value of a voltage of the AC power supply, which is detected based on the AC voltage waveform output from the first phase adjusting unit. 12. A power supply apparatus according to claim 9 , further comprising a power calculation unit configured to calculate power supplied to the load, wherein the power calculation unit is configured to calculate an amount of power supplied to the load from the AC power supply based on a current value of a current supplied to the load, which is detected based on the AC voltage waveform output from the second phase adjusting unit, and a voltage value of a voltage of the AC power supply, which is detected based on the AC voltage waveform output from the first phase adjusting unit. 13. A power supply apparatus according to claim 1 , further comprising a control unit configured to control supply of power to the load, wherein the control unit is configured to calculate a frequency of the AC power supply based on a zero cross timing detected by the zero cross detection unit and use a phase leading amount of the AC voltage waveform, which is output from the voltage detection unit, corresponding to the calculate frequency to adjust the zero cross timing of the AC voltage waveform. 14. A power supply apparatus according to claim 13 , further comprising a storage unit configured to store the phase leading amount of the AC voltage waveform, which is output from the voltage detection unit, corresponding to the frequency of the AC power supply, wherein the control unit is configured to obtain the phase leading amount corresponding to the calculated frequency from the storage unit. 15. A power supply apparatus according to claim 13 , wherein the control unit is configured to calculate the phase leading amount of the AC voltage waveform corresponding to the calculated frequency based on a frequency of the AC power supply and on an inductance value and a resistance value on the secondary side of the first current transformer. 16. A power supply apparatus according to claim 1 , further comprising a voltage calculation unit configured to calculate a voltage of the AC power supply, wherein the voltage calculation unit is configured to calculate a voltage of the AC power supply based on a voltage of the AC power supply detected by the voltage detection unit and a zero cross timing of the AC power supply detected by the zero cross detection unit. 17. A power supply apparatus according to claim 16 , further comprising a voltage calculation unit configured to calculate a voltage of the AC power supply, wherein the voltage calculation unit is configured to calculate a voltage of the AC power supply based on a voltage of the AC voltage waveform adjusted by the first phase adjusting unit and a zero cross timing of the AC power supply detected by the zero cross detection unit.