Patent ID: 7873022

Claim:
A wireless local area network (WLAN) transmitter having high data throughput, the WLAN transmitter comprises: a Medium Access Control (MAC) module operably coupled to convert a MAC Service Data Unit (MSDU) into a MAC Protocol Data Unit (MPDU) in accordance with a WLAN protocol; a Physical Layer Convergence Procedure (PLCP) Module operably coupled to convert the MPDU into a PLCP Protocol Data Unit (PPDU) in accordance with the WLAN protocol; and a Physical Medium Dependent (PMD) module operably coupled to convert the PPDU into a plurality of radio frequency (RF) signals in accordance with one of a plurality of operating modes of the WLAN protocol, wherein the plurality of operating modes includes multiple input and multiple output combinations, wherein the PMD module includes: an error protection module operably coupled to restructure the PPDU to reduce transmission errors producing error protected data, wherein the error protection module includes: a scramble module operably coupled to scramble the PPDU to produce scrambled data; a channel encoding module operably coupled to encode the scrambled data to produce encoded data; and an interleaving module operably coupled to interleave the encoded data to produce interleaved data, wherein the interleaved data represents the error protected data; a demultiplexing module operably coupled to divide the error protected data into a plurality of error protected data streams; and a plurality of symbol mappers coupled downstream from the demultiplexing module, in which each symbol mapper of the plurality of symbol mappers is coupled to receive respective one of the error protected data streams for conversion to digital baseband signals; wherein the PMD module further includes: a plurality of inverse fast Fourier transform (IFFT) modules, each operably coupled to respective one of the symbol mappers to convert symbol mapped error protected data streams from a frequency domain to a time domain to produce a plurality of tones; a plurality of cyclic prefix modules, each operably coupled to respective IFFT modules to add a cyclic prefix to each of a plurality of tones to produce a plurality of subcarriers; a space time encoding module operably coupled to the cyclic prefix modules to space- time encode the plurality of subcarriers to produce a plurality of space-time encoded subcarriers; and a plurality of digital modules operably coupled to the space time encoding module to filter the plurality of space-time encoded subcarriers to produce the digital baseband signals.