Integrated power supply system

What is claimed is: 1. An integrated power supply system, comprising: a grid power source; at least one renewable power source; a rechargeable battery assembly; a DC bus; a bi-directional AC-to-DC converter, coupled to the grid power source and the DC bus; at least one first DC-to-DC converter, coupled to the at least one renewable power source and the DC bus; a bi-directional DC-to-DC converter, coupled to the rechargeable battery assembly and the DC bus; an AC transformer, coupled to the grid power source and configured to transform a voltage level of the grid power source, and the AC transformer having a delta-connected primary side and a wye-connected secondary side coupled to the bi-directional AC-to-DC converter in a single-phase connection; wherein the bi-directional AC-to-DC converter provides an input common connection end and an output neutral point, and the common connection end and the output neutral point are coupled to one phase of the primary side of the AC transformer, and a controller, configured to control power electricity provided from the grid power source, the at least one renewable power source, and the rechargeable battery assembly feeding into and being drawn from the DC bus, thereby keeping a bus voltage of the DC bus substantially fixed at a system voltage. 2. The integrated power supply system in claim 1 , further comprising: a second DC-to-DC converter, coupled to the DC bus and a DC load and configured to convert the bus voltage into a load voltage for supplying power to the DC load. 3. The integrated power supply system in claim 2 , wherein the load voltage is less than or equal to 60 volts. 4. The integrated power supply system in claim 2 , wherein the rechargeable battery assembly is configured to supply DC power to the DC load by a power flow route through the bi-directional DC-to-DC converter, the DC bus, and the second DC-to-DC converter. 5. The integrated power supply system in claim 2 , wherein the rechargeable battery assembly is configured to supply AC power to an AC load by a power flow route through the bi-directional DC-to-DC converter, the DC bus, and the bi-directional AC-to-DC converter. 6. The integrated power supply system in claim 1 , wherein when the bus voltage is less than a first threshold voltage, the controller is configured to control the at least one first DC-to-DC converter with the highest priority converting the at least one renewable power source into the power electricity feeding into the DC bus; wherein the first threshold voltage is less than the system voltage. 7. The integrated power supply system in claim 6 , wherein when the bus voltage is less than the first threshold voltage, the controller is configured to control the bi-directional DC-to-DC converter with the second high priority converting output power of the rechargeable battery assembly into the power electricity feeding into the DC bus. 8. The integrated power supply system in claim 6 , wherein when the bus voltage is less than a second threshold voltage, the controller is configured to control the bi-directional AC-to-DC converter converting the grid power source into the power electricity feeding into the DC bus; wherein the second threshold voltage is less than the first threshold voltage. 9. The integrated power supply system in claim 1 , whether the integrated power supply system is contained in a cabinet, and the bi-directional DC-to-DC converter and the at least one first DC-to-DC converter are disposed in two-column arrangement and insertable and extractable. 10. The integrated power supply system in claim 1 , whether the integrated power supply system is contained in a cabinet, and the bi-directional DC-to-DC converter and the at least one first DC-to-DC converter are disposed in one-column arrangement and insertable and extractable. 11. The integrated power supply system in claim 1 , wherein the secondary side of the AC transformer is coupled to the bi-directional AC-to-DC converter in a three-phase connection. 12. The integrated power supply system in claim 1 , wherein at least one winding of the secondary side of the AC transformer is used to create an auxiliary winding, and a voltage of the auxiliary winding is less than a voltage of the at least one winding. 13. The integrated power supply system in claim 1 , further comprising: a cloud-based energy management system, connected to the controller in a wireless manner or in a wired manner and configured to receive real-time electricity information provided from the controller. 14. The integrated power supply system in claim 1 , wherein the at least one renewable power source is a solar energy source, a wind energy source, a geothermal energy source, or a hydraulic energy source. 15. The integrated power supply system in claim 1 , wherein the integrated power supply system is applied to supply power to residential buildings or electric vehicles.