Method and apparatus for monitoring capacitance of DC bus capacitor

What is claimed is: 1. A method for monitoring a DC bus capacitor of a power electronic converter, wherein the power electronic converter comprises an AC/DC conversion circuit having a first terminal and a second terminal and the DC bus capacitor connected to the second terminal of the AC/DC conversion circuit, the first terminal is connected to an AC grid with a frequency of f, and the method comprises: measuring an AC current flowing through the first terminal of the AC/DC conversion circuit and a voltage on the DC bus capacitor; calculating a power of the DC bus capacitor at least according to the AC current flowing through the first terminal of the AC/DC conversion circuit, the voltage on the DC bus capacitor and a duty ratio of the AC/DC conversion circuit; filtering out a pulsating power with a frequency of 2f from the power of the DC bus capacitor and obtaining a magnitude of the pulsating power; and calculating a capacitance of the DC bus capacitor based on the magnitude of the pulsating power and the voltage on the DC bus capacitor. 2. The method for monitoring a DC bus capacitor of a power electronic converter according to claim 1 , wherein the power of the DC bus capacitor is calculated by a formula: I g *D*V c , wherein I g is the AC current flowing through the first terminal of the AC/DC conversion circuit, D is the duty ratio of the AC/DC conversion circuit, and V c is the voltage on the DC bus capacitor. 3. The method for monitoring a DC bus capacitor of a power electronic converter according to claim 1 , wherein the capacitance of the DC bus capacitor is calculated by a formula: P mag /(2*π* f *( V cmax −V cmin )* V cmean ), wherein P mag is the magnitude of the pulsating power, V cmax is a maximum value of the voltage on the DC bus capacitor, V cmin is a minimum value of the voltage on the DC bus capacitor, and V cmean is an average value of the voltage on the DC bus capacitor. 4. The method for monitoring a DC bus capacitor of a power electronic converter according to claim 1 , wherein the power electronic converter further comprises a DC/DC conversion circuit having a third terminal and a fourth terminal, the third terminal is connected to the DC bus capacitor, the fourth terminal is connected to a load, and the power of the DC bus capacitor is calculated by a formula: I g *D*V c −I o *V o wherein I g is the AC current flowing through the first terminal of the AC/DC conversion circuit D is the duty ratio of the AC/DC conversion circuit, V c is the voltage on the DC bus capacitor, I o is a current flowing through the fourth terminal of the DC/DC conversion circuit, and V o is a voltage on the fourth terminal of the DC/DC conversion circuit. 5. An apparatus for monitoring a DC bus capacitor of a power electronic converter, wherein the power electronic converter comprises a AC/DC conversion circuit having a first terminal and a second terminal and the DC bus capacitor connected to the second terminal of the AC/DC conversion circuit, the first terminal is connected to an AC grid with a frequency of f, and the apparatus comprises: a voltage/current measuring circuit, configured to measure a voltage on the DC bus capacitor and an AC current flowing through the first terminal of the AC/DC conversion circuit; a capacitor power calculating circuit, configured to calculate a power of the DC bus capacitor at least according to the AC current flowing through the first terminal of the AC/DC conversion circuit, the voltage on the DC bus capacitor and a duty ratio of the AC/DC conversion circuit; a first second-order harmonic filter, configured to filter out a component with a frequency of 2f from the power of the DC bus capacitor to obtain a pulsating power; a magnitude detecting circuit, configured to obtain a magnitude of the pulsating power; and a capacitance calculating circuit, configured to calculate a capacitance of the DC bus capacitor based on the magnitude of the pulsating power and the voltage on the DC bus capacitor. 6. The apparatus for monitoring a DC bus capacitor of a power electronic converter according to claim 5 , wherein the power of the DC bus capacitor is calculated by a formula, I g *D*V c , wherein I g is the AC current flowing through the first terminal, D is the duty ratio of the AC/DC conversion circuit, and V c is the voltage on the DC bus capacitor. 7. The apparatus for monitoring a DC bus capacitor of a power electronic converter according to claim 5 , wherein the voltage/current measuring circuit comprises: an average detecting circuit, configured to obtain an average value of the voltage on the DC bus capacitor; and a peak-to-peak value detecting circuit, configured to obtain a maximum value of the voltage on the DC bus capacitor and a minimum value of the voltage on the DC bus capacitor. 8. The apparatus for monitoring a DC bus capacitor of a power electronic converter according to claim 7 , wherein the peak-to-peak value detecting circuit comprises: a second second-order harmonic filter, configured to filter out a component with a frequency of 2f from the voltage on the DC bus capacitor, wherein the maximum value of the voltage on the DC bus capacitor and the minimum value of the voltage on the DC bus capacitor are defined as a maximum and a minimum values of the component with a frequency of 2f, respectively. 9. The apparatus for monitoring a DC bus capacitor of a power electronic converter according to claim 7 , wherein the capacitance of the DC bus capacitor is calculated by a formula: P mag /(2*π* f ( V cmax −V cmin )* V cmean ), wherein P mag is the magnitude of the pulsating power, V cmax is the maximum value of the voltage on the DC bus capacitor, V cmin is the minimum value of the voltage on the DC bus capacitor, and V cmean is the average value of the voltage on the DC bus capacitor. 10. The apparatus for monitoring a DC bus capacitor of a power electronic converter according to claim 5 , wherein a number of the power electronic converters is more than one, inputs of the plural power electronic converters are connected in series or parallel, and outputs of the plural power electronic converters are connected in series or parallel. 11. The apparatus for monitoring a DC bus capacitor of a power electronic converter according to claim 5 , wherein the power electronic converter further comprises a DC/DC conversion circuit having a third terminal and a fourth terminal, the third terminal is connected to the DC bus capacitor the fourth terminal is connected to a load, and the power of the DC bus capacitor is calculated by a formula: I g *D*V c −I o *V o , wherein I g is the AC current flowing through the first terminal, D is the duty ratio of the AC/DC conversion circuit, V c is the voltage on the DC bus capacitor, I o is a current flowing through the fourth terminal, and V o is a voltage on the fourth terminal. 12. The apparatus for monitoring a DC bus capacitor of a power electronic converter according to claim 7 , wherein the capacitance calculating circuit comprises: an operating circuit, configured to calculate the capacitance of the DC bus capacitor according to the average value of the voltage on the DC bus capacitor, the maximum value of the voltage on the DC bus capacitor, the minimum value of the voltage on the DC bus capacitor and the pulsating power magnitude.