Resonant dc/dc power converting circuit and method for controlling the same

What is claimed is: 1 . A method for controlling a resonant DC/DC power converting circuit, the resonant DC/DC power converting circuit having a converter output and a converter input comprising: at least two converters having similar structures and outputs connected in parallel as said converter output, each said converter comprising: a full-bridge inverter unit configured with at least four switches; and a resonant unit coupled with said full-bridge inverter unit; and a controller outputting two groups of driving control signals to drive four switches in said two converters respectively; the method for controlling the resonant DC/DC power converting circuit during normal operation comprising: making said two converters operate at the same frequency and interleave with preset phase shift; and making two of driving control signals in one group interleave with preset angle to reduce output current of said converter corresponding controlled thereby, when output currents of said two converters are not approximately equal. 2 . The method of claim 1 , wherein the preset phase shift is greater than 0 degree and smaller than 180 degrees. 3 . The method of claim 1 , wherein the preset phase shift satisfies an equation: 180/m, m represents a number of the converters comprised in the resonant DC/DC power converting circuit, the preset angle θ degree is set to adjust the phase shift between two groups. 4 . The method of claim 3 , wherein m is equal to 2. 5 . The method of claim 3 , wherein: keeping two driving control signals in one group with phase shift 180/m compared to two corresponding signals in the other group; adjusting the other two driving control signals in one group with phase shift 180/m−θ compared to two corresponding signals in the other group. 6 . The method of claim 3 , wherein: adjusting two driving control signals in one group with phase shift 180/m−θ/2 compared to two corresponding signals in the other group; adjusting the other two driving control signals in one group with phase shift 180/m+θ/2 compared to two corresponding signals in the other group. 7 . The method of claim 1 , further comprising: controlling the controller to maintain or adjust the current frequencies of the two groups based on an output voltage of the resonant DC/DC power converting circuit. 8 . A resonant DC/DC power converting circuit having a converter output and a converter input comprising: at least two converters having similar structures and outputs connected in parallel as said converter output, each said converter comprising: a full-bridge inverter unit configured with at least four switches; and a resonant unit coupled with said full-bridge inverter unit; a controller configured to output at least two groups of driving control signals for controlling said switches in the two converters respectively; a current sampling circuit configured to sample output currents of the two converters respectively to output a first current sampling signal and a second current sampling signal accordingly; and a current-balance controller configured to receive the first current sampling signal and the second current sampling signal, once it is determined that the output current of one of the two converters is greater, outputting a preset angle to the controller to make the two driving control signals in the corresponding group for the converter whose output current is greater interleave with the preset angle so as to reduce the output current thereof to achieve balance between output currents of the two converters. 9 . The resonant DC/DC power converting circuit of claim 8 , wherein the preset angle is greater than 0 degree and smaller than or equal to 3π/10 degrees. 10 . The resonant DC/DC power converting circuit of claim 8 , wherein the current-balance controller comprises: a current discriminator configured to receive a reference signal and the first current sampling signal and the second current sampling signal to output at least a current difference signal when the two current sampling signals are not approximately equal; and a current-balance adjuster configured to receive the current difference signal to output the preset angle to the controller. 11 . The resonant DC/DC power converting circuit of claim 10 , wherein the current discriminator comprises: a pretreatment filtering block configured to receive the first current sampling signal and the second current sampling signal conditioned thereby and output a first current sampling process signal and a second current sampling process signal; and an error calculation block configured to receive the reference signal, the first current sampling process signal, and the second current sampling process signal to output the current difference signal. 12 . The resonant DC/DC power converting circuit of claim 11 , wherein the current-balance adjuster comprises: an error compensator configured to receive the current difference signal and output a current compensation signal; and a compensation angle convertor configured to receive the current compensation signal and output the preset angle to the controller. 13 . The resonant DC/DC power converting circuit of claim 10 , wherein the reference signal is the smaller one in the first and second current sampling signals, or one half of summation of the first and second current sampling signals.