Electrical energy converter and associated system for converting electrical energy

The invention claimed is: 1. An electric power converter including an inverter for obtaining an alternative electrical energy from a source of DC electric power, said inverter comprising a switch including first and second conduction terminals for receiving an alternative voltage, said electrical energy converter being suitable for supplying an output electrical energy to a load having a load impedance, said converter comprising a capacitive circuit with variable and controllable capacitance, connected between the inverter and the load, the control of a change in said capacitance being used for obtaining a change in an output electrical parameter of the converter. 2. The converter according to claim 1 , wherein said output parameter is an output voltage or current or power of the converter. 3. The converter according to claim 1 , comprising an impedance matching unit configured for matching an output impedance of said inverter with the load impedance, said capacitive circuit with variable capacitance being connected between the impedance matching unit and the load to be supplied. 4. The converter according to claim 3 , further comprising a rectifier unit for obtaining a DC electrical energy from a source of AC electrical energy, said rectifier unit being connected between the capacitive circuit with variable capacitance and the load to be supplied. 5. The converter according to claim 1 , further comprising a regulator unit configured for switching the switch when the voltage between said first and second conduction terminals of said switch is substantially zero. 6. The converter according to claim 1 , wherein the capacitive circuit comprises a plurality of capacitors arranged in parallel, each capacitor being connected in series with an associated switch, said capacitor being connected in the capacitive circuit when the associated switch is in the closed position, said capacitor being disconnected from the capacitive circuit when the associated switch is in the open position, the variable capacitance of said capacitive circuit being equal, at a given instant, to the sum of the capacitances of the capacitors connected in the capacitive circuit at said given instant. 7. The converter according to claim 6 , wherein one of said capacitors has an initial capacitance, the other capacitors each having a capacitance which is a multiple of said initial capacitance. 8. A system for converting electrical energy including an electrical energy converter according to claim 1 and a control module configured for receiving as input, a setpoint value of said output electrical parameter of the converter and for controlling the variable capacitance of said capacitive circuit as a function of said setpoint value. 9. The system for converting electrical energy according to claim 8 wherein said control module comprises a subtractor configured for receiving, at a first input, a value of said output electrical parameter of the converter and for receiving, at a second input, the setpoint value of said electrical parameter, said subtractor being configured for computing a difference between the value of the output electrical parameter of the converter and the setpoint value. 10. The system for converting electrical energy according to claim 9 , wherein said control module further comprises a conversion module configured for converting the calculated difference into a control signal of the capacitive circuit.