Reception method and reception chain for a plc modem

1 . A transmission method in a first node device of a power line communication network, the first node device being configured so as to apply a reception mode for receiving data transmitted by a second node device in one or more separate frequency bands in parallel, characterized in that it comprises steps of: converting data received in the form of an analogue signal in one or more of said separate frequency bands into a first series of data, filtering said first series of data in parallel through the same number of filtering circuits as there are frequency bands for which the first node device is configured in reception mode, so as to obtain the same number of second series of data as there are frequency bands for which the first node device is configured in reception mode, demodulating said second series of data through the same number of demodulation circuits as there are frequency bands for which the first node device is configured in reception mode, so as to obtain third series of data, recording the third series of data in a first buffer memory, and de-interleaving data, for each of the separate frequency bands, in a de-interleaving mode specific to the separate frequency band for which the de-interleaving is performed, detecting whether the de-interleaved data are coherent and, if the de-interleaved data are coherent, supplying the de-interleaved data with a view to subsequent processing. 2 . The transmission method according to claim 1 , wherein the first node device is furthermore configured so as to apply a reception mode for receiving data transmitted by a second node device in a frequency band called “extended frequency band” comprising at least two separate frequency bands, reception in said extended frequency band taking place in parallel in the at least two separate frequency bands, the method furthermore comprising steps of de-interleaving the data read from said first buffer memory in a de-interleaving mode specific to reception in an extended frequency band, detecting whether the de-interleaved data are coherent and, if the data de-interleaved in a de-interleaving mode specific to the extended frequency band are coherent, supplying the de-interleaved data with a view to subsequent processing. 3 . The transmission method according to claim 1 , wherein the step of detecting whether the data are coherent comprises checking control bits by way of a direct error correction circuit called “FEC decoder”. 4 . The transmission method according to claim 1 , wherein the step of detecting whether the data are coherent comprises reading a data frame control header and determining a checksum of CRC type. 5 . The transmission method according to preceding claims claim 1 , wherein the subsequent processing is a read operation on a MAC layer data frame formatted in accordance with the ITU-T G9903 recommendation. 6 . A method according to claim 1 , wherein the filtering circuits comprise preferably second-order filters that separate data respectively transmitted in separate frequency bands from among the following group: CENELEC A frequency band, CENELEC B frequency band, and FCC frequency band or ARIB frequency band. 7 . A node device called “first node device” in a power line communication network, the first node device being configured so as to communicate in one or more separate frequency bands with a second node device of said network, the first node device is furthermore configured so as to apply a reception mode for receiving data in one or more of said separate frequency bands in parallel, and in that the first node device comprises electronic circuits configured so as to: convert the data received in the form of an analogue signal in one or more of said separate frequency bands into a first series of data, filter said first series of data in parallel through the same number of filtering circuits as there are frequency bands for which the first node device is configured in reception mode, so as to obtain the same number of second series of data as there are frequency bands for which the first node device is configured in reception mode, demodulate said second series of data through the same number of demodulation circuits as there are frequency bands for which the first node device is configured in reception mode, so as to obtain third series of data, record the third series of data in a first buffer memory, and de-interleave data, for each of the separate frequency bands, in a de-interleaving mode specific to the separate frequency band for which the de-interleaving is performed and, if the de-interleaved data are coherent, supply the de-interleaved data with a view to subsequent processing. 8 . The node device according to claim 7 , configured so as to apply a reception mode for receiving data in a frequency band called “extended frequency band” comprising at least two separate frequency bands from among said plurality of separate frequency bands, reception in said extended frequency band taking place in parallel in the at least two separate frequency bands, furthermore comprising electronic circuits configured so as to: de-interleave data read from said first buffer memory in a de-interleaving mode specific to reception in an extended frequency band and detect whether the de-interleaved data are coherent and, if the data de-interleaved in a de-interleaving mode specific to the extended frequency band are coherent, supply the de-interleaved data with a view to subsequent processing. 9 . A power line communication network comprising a plurality of node devices according to claim 7 . 10 . An information storage medium comprising a computer program product comprising program code instructions for executing the method according to claim 1 when said program is executed by a processor. 11 . (canceled)