Method of calibrating a multiport amplifier, multiport amplifier allowing the implementation of such a method, and satellite comprising such an amplifier

The invention claimed is: 1. A method of calibrating a multiport amplifier comprising a plurality of input ports, a plurality of power amplifiers linked to the plurality of input ports by way of a matrix for distributing signals, and a plurality of output ports linked to the plurality of power amplifiers by way of a matrix for recombining signals, the matrices for distributing and recombining signals being adapted for dividing a signal present at an input port between a plurality of the power amplifiers and for recombining the signal, amplified, at a level of an output port, an element for weighting the signals being associated with each power amplifier; wherein the method comprises: a) determining a normalized mean cross-correlation between an output signal present at the output port, taken as reference, and signals present at the other output ports; and b) iteratively adjusting weights of the weighting elements to minimize the normalized mean cross-correlation or to render it less than a predetermined threshold; wherein the weights are complex weights, each weight comprising a modulus and a phase, wherein step b) further comprises: b1) iteratively adjusting the phases of the weights; and b2) iteratively adjusting the moduli of the weights; and wherein the steps b1) and b2) are implemented successively, in an arbitrary order, and wherein step b1) further comprises successive adjusting of the phases of the weights of the weighting elements associated with the power amplifiers; and wherein step b2) further comprises successive adjusting of the moduli of the weights of the weighting elements associated with the power amplifiers. 2. The method according to claim 1 , wherein the normalized mean cross-correlation is normalized with respect to a mean auto-correlation of the signal present at the output port taken as reference. 3. The method according to claim 1 , wherein the output port taken as reference is that which exhibits a signal having a highest power level. 4. The method according to claim 1 , wherein the signals present on said output ports exhibit a disjoint frequency plan. 5. The method according to claim 1 , wherein no measurement signal is injected into said amplifier in order to carry out the calibration. 6. A method of calibrating a multiport amplifier comprising a plurality of input ports, a plurality of power amplifiers linked to the plurality of input ports by way of a matrix for distributing signals, and a plurality of output ports linked to the plurality of power amplifiers by way of a matrix for recombining signals, the matrices for distributing and recombining signals being adapted for dividing a signal present at an input port between a plurality of the power amplifiers and for recombining the signal, amplified, at a level of an output port, an element for weighting the signals being associated with each power amplifier; wherein the method comprises: a) determining a normalized mean cross-correlation between an output signal present at an output port, taken as reference, and signals present at the other output ports; and b) iteratively adjusting weights of the weighting elements to minimize the normalized mean cross-correlation or to render it less than a predetermined threshold; wherein the weights are complex weights, each weight comprising a modulus and a phase, wherein step b) further comprises: b1) iteratively adjusting the phases of said weights; b2) iteratively adjusting the moduli of said weights; b3) determining said normalized mean cross-correlation; b4) applying a predefined increment to a modulus and/or to a phase of a said weight to be adjusted; b5) re-determining said normalized mean cross-correlation and, if its value has increased, changing the sign of said increment; b6) applying said predefined increment to said phase and/or to said modulus of said weight to be adjusted, with the sign determined during operation b5); and b7) re-determining said normalized mean cross-correlation and, if its value has decreased while remaining greater than a predefined threshold, repeating operations b6) and b7; and wherein steps b1) and b2) are implemented successively, in an arbitrary order, and wherein step b1) further comprises successive adjusting of the phases of the weights of the weighting elements associated with the power amplifiers; and wherein step b2) further comprises successive adjusting of the moduli of the weights of the weighting elements associated with the power amplifiers. 7. The method of claim 6 , wherein the normalized mean cross-correlation is normalized with respect to a mean auto-correlation of the signal present at the output port taken as reference. 8. The method of claim 6 , wherein the output port taken as reference is that which exhibits the signal having the highest power level. 9. The method of claim 6 , wherein the signals present on said output ports exhibit a disjoint frequency plan. 10. The method of claim 6 , wherein no measurement signal is injected into said amplifier in order to carry out the calibration. 11. A method of calibrating a multiport amplifier comprising a plurality of input ports, a plurality of power amplifiers linked to the plurality of input ports by way of a matrix for distributing signals, and a plurality of output ports linked to the plurality of power amplifiers by way of a matrix for recombining signals, the matrices for distributing and recombining signals being adapted for dividing a signal present at an input port between a plurality of the power amplifiers and for recombining the signal, amplified, at a level of an output port, an element for weighting the signals being associated with each power amplifier; wherein the method comprises: a) determining a normalized mean cross-correlation between an output signal present at an output port, taken as reference, and signals present at the other output ports; and b) iteratively adjusting weights of said weighting elements to minimize the normalized mean cross-correlation or to render it less than a predetermined threshold; wherein the weights are complex weights, each weight comprising a modulus and a phase, wherein step b) further comprises: b1) iteratively adjusting the phases of the weights; and b2) iteratively adjusting the moduli of the weights; and wherein steps b1) and b2) are implemented successively, in an arbitrary order, and wherein step b1) further comprises successive adjusting of the phases of the weights of the weighting elements associated with the power amplifiers; wherein step b2) further comprises successive adjusting of the moduli of the weights of the weighting elements associated with the power amplifiers; and wherein the normalized mean correlations are determined inside a frequency band substantially coincident with that of the signal present on the reference port. 12. The method of claim 11 , wherein said normalized mean cross-correlation is normalized with respect to a mean auto-correlation of the signal present at said output port taken as reference. 13. The method of claim 11 , wherein the output port taken as reference is that which exhibits the signal having the highest power level. 14. The method of claim 11 , wherein the signals present on said output ports exhibit a disjoint frequency plan. 15. The method of claim 11 , wherein no measurement signal is injected into said amplifier in order to carry out the calibration. 16. A multiport amplifier comprising a plurality of input ports, a plurality of power amplifiers linked to the plurality of input ports by way of a matrix for distributing