Self-calibrated multi-channel transmission system for a satellite payload

The invention claimed is: 1. A multichannel transmission system comprising a digital device configured to implement a multiple-input, multiple-output input hybrid network and a distinct equalization filter for each output of the input hybrid network, the system further comprising: for each output of the digital device, a digital-to-analog converter followed by a radiofrequency analog processing chain, comprising at least one analog filter, and by an amplifier, an output hybrid network, each input of which is connected to an output of a respective amplifier, a radiofrequency analog acquisition chain comprising at least one analog filter connected on one hand, alternately, to the output of each amplifier via a selector, and on another hand to a calibration input of the digital device via an analog-to-digital converter, the digital device being further configured to: generate a calibration signal on an input of the input hybrid network, wherein the calibration signal occupies an entire spectral band of the system, generate a payload signal on all other inputs of the input hybrid network, extract, from a signal received on the calibration input, a measurement of the calibration signal, successively determine a response of each equalization filter so as to minimize a difference between the generated calibration signal and the measured calibration signal, the selector being connected successively to the output of each amplifier before the inputs of the output hybrid network. 2. The multichannel transmission system as claimed in claim 1 , wherein the input hybrid network is configured to receive the calibration signal on a calibration input and a payload signal on the other inputs of the input hybrid network and the output hybrid network comprises a calibration output connected to a load and the other outputs of the output hybrid network are connected to one or more antennas. 3. The multichannel transmission system as claimed in claim 1 , wherein the calibration signal is superposed onto a payload signal on an input of the input hybrid network. 4. The multichannel transmission system as claimed in claim 1 , wherein the calibration signal is a wideband signal or a narrowband signal having a frequency band that varies with time throughout the entire frequency band of the system. 5. The multichannel transmission system as claimed in claim 1 wherein the calibration signal is periodic and the extraction of a measurement of the calibration signal is achieved by performing a coherent temporal accumulation of the signal received on the calibration input. 6. The multichannel transmission system as claimed in claim 1 , wherein the calibration signal is equal to a payload signal generated on an input of the input hybrid network and saved in a memory. 7. The multichannel transmission system as claimed in claim 1 , wherein each equalization filter is configured to correct, over an entire frequency band of the system, the output signals of the input hybrid network in terms of amplitude and of phase so as to correct a pairing and isolation defects in different channels of the multichannel transmission system. 8. The multichannel transmission system as claimed in claim 1 , wherein a transfer function of the input hybrid network is determined so as to be an inverse of a transfer function of the output hybrid network. 9. The multichannel transmission system as claimed in claim 1 , wherein each radiofrequency analog processing chain comprises a frequency transposition device for transposing an analog signal from a first frequency to a second frequency and the radiofrequency analog acquisition chain comprises an inverse frequency transposition device for transposing an analog signal from the second frequency to the first frequency. 10. A satellite payload comprising the multichannel transmission system as claimed in claim 1 and at least one antenna or antenna array connected at an output of said system.