Method for controlling a grid-connected power supply system

摘要

A method for controlling a grid-connected power supply system having multiple power supply modules, a relay commonly connected to output terminals of the power supply modules and connected between the power supply modules and a mains power grid, and a controller controlling each power supply module and the relay. The method is performed by the controller after the grid-connected power supply system is started and has steps of determining if each power supply module outputs power, activating each power supply module and charging an energy storage capacitor of the power supply module, and activating the relay when the stored voltages of the energy storage capacitors of all the power supply modules are greater than a preset peak voltage of the mains power. Accordingly, required number of relays is reduced and the size of the system can thus be more compact.

主权项

1. A method for controlling a grid-connected power supply system, wherein the grid-connected power supply system has:
multiple power supply modules, each power supply module having:
an input terminal;an output terminal;a regenerative energy converter converting energy from an energy source into a DC (Direct Current) power and having:
an output terminal connected to the input terminal of the power supply module; andthe output terminal outputting the DC power;a DC to DC converter converting the DC power outputted from the regenerative energy converter into a DC operating voltage and having:
an input terminal connected to the output terminal of the regenerative energy converter;an output terminal outputting the DC operating voltage; andan input capacitor parallelly connected between the input terminal and the output terminal of the DC to DC converter;a DC to AC (Alternating Current) converter converting the DC operating voltage into an AC power and having:
multiple metal oxide semiconductor field effect transistors MOSFETs);an input terminal connected to the output terminal of the DC to DC converter; andan output terminal outputting the AC power;an output circuit generating an output voltage and having:
an input terminal connected to the output terminal of the DC to AC converter;an output terminal connected to the output terminal of the power supply module and outputting the output voltage; andan output capacitor parallelly connected between the input terminal and the output terminal of the output circuit, and connected to the output capacitor of the output circuit of another one of the multiple power supply modules next to the power supply module; andan energy storage capacitor parallelly connected between the output terminal of the DC to DC converter and the input terminal of the DC to AC converter, wherein the MOSFETs of the DC to AC converter are connected between the energy storage capacitor and the output circuit; a relay parallelly connected between the output terminal of each power supply module and a mains power grid and having an input terminal parallelly connected to the output capacitor of each power supply module; and a controller connected to the input capacitor and the energy storage capacitor of each power supply module and controlling the power supply modules and the relay; the method performed by the controller and comprising steps of: determining if the regenerative energy converter of each power supply module outputs power; activating each power supply module having the regenerative energy converter outputting power so that the DC to DC converter of the power supply module charges the energy storage capacitor of the power supply module and a stored voltage of the energy storage capacitor is outputted to the DC to AC converter and is converted into AC power and outputted to the output circuit by the DC to AC converter; activating the DC to DC converter of one of the activated power supply modules next to any power supply module outputting no power to charge the energy storage capacitor of the power supply module outputting no power until the stored voltage of the energy storage capacitor of the power supply module outputting no power is greater than a preset peak voltage of the mains power; determining if the stored voltage of the energy storage capacitor of each power supply module is greater than the preset peak voltage of the mains power, and resuming the current step if not when the condition that the stored voltage of the energy storage capacitor of each power supply module is greater than the preset peak voltage of the mains power is not met; and activating the relay when the stored voltages of the energy storage capacitors of all the power supply modules are greater than the preset peak voltage of the mains power.