DC-DC converter with high transformer ratio

The invention claimed is: 1. A direct current to direct current converter with high transformer ratio, comprising two direct current to direct current converter bodies, wherein inputs of the two direct current to direct current converter bodies are connected in parallel and outputs of the two direct current to direct current converter bodies are connected in series, and the inputs of the two direct current to direct current converter bodies are connected to a positive electrode and a negative electrode of a direct current source respectively; wherein each of the two direct current to direct current converter bodies is a boost-buck direct current to direct current converter; wherein one of the boost-buck direct current to direct current converters comprises a first inductor, a first power switch and a first series branch, the first inductor and the first power switch are connected in series to a direct-current source, the first series branch is connected in parallel to the first power switch, and the first series branch comprises a second power switch, a first capacitor and a second capacitor which are connected in series; and the other one of the boost-buck direct current to direct current converters comprises a second inductor, a third power switch and a second series branch, the second inductor and the third power switch are connected in series to the direct-current source, the second series branch is connected in parallel to the third power switch, and the second series branch comprises a fourth power switch, the second capacitor and a third capacitor which are connected in series. 2. The direct current to direct current converter with high transformer ratio according to claim 1 , wherein each of the first power switch, the second power switch, the third power switch and the fourth power switch is a MOS or an IGBT. 3. A direct current to direct current converter with high transformer ratio, comprising two direct current to direct current converter bodies, wherein inputs of the two direct current to direct current converter bodies are connected in parallel and outputs of the two direct current to direct current converter bodies are connected in series, and the inputs of the two direct current to direct current converter bodies are connected to a positive electrode and a negative electrode of a direct current source respectively wherein each of the two direct current to direct current converter bodies is a boost direct current to direct current converter; wherein one of the boost direct current to direct current converters comprises a first inductor, a first power switch and a first series branch, the first inductor and the first power switch are connected in series to a direct-current source, the first series branch is connected in parallel to the first power switch, and the first series branch comprises a first diode, a first capacitor and a second capacitor which are connected in series; and the other one of the boost direct current to direct current converters comprises a second inductor, a second power switch and a second series branch, the second inductor and the second power switch are connected in series to the direct-current source, the second series branch is connected in parallel to the second power switch, and the second series branch comprises a second diode, the second capacitor and a third capacitor which are connected in series. 4. The direct current to direct current converter with high transformer ratio according to claim 3 , wherein each of the first power switch and the second power switch is a MOS or an IGBT. 5. A direct current to direct current converter with high transformer ratio, comprising two direct current to direct current converter bodies, wherein inputs of the two direct current to direct current converter bodies are connected in parallel and outputs of the two direct current to direct current converter bodies are connected in series, and the inputs of the two direct current to direct current converter bodies are connected to a positive electrode and a negative electrode of a direct current source respectively; wherein the two direct current to direct current converter bodies comprises one boost-buck direct current to direct current converter and one boost direct current to direct current converter; wherein the boost-buck direct current to direct current converter comprises a first inductor, a first power switch and a first series branch, the first inductor and the first power switch are connected in series to a direct-current source, the first series branch is connected in parallel to the first power switch, and the first series branch comprises a second power switch, a first capacitor and a second capacitor which are connected in series; and the boost direct current to direct current converter comprises a second inductor, a third power switch and a second series branch, the second inductor and the third power switch are connected in series to the direct-current source, the second series branch is connected in parallel to the second inductor, and the second series branch comprises a fourth power switch and a third capacitor which are connected in series, wherein the first capacitor, the second capacitor and the third capacitor are connected in series to achieve voltage dividing. 6. The direct current to direct current converter with high transformer ratio according to claim 5 , wherein each the first power switch, the second power switch, the third power switch and the fourth power switch is a MOS or an IGBT.