The digital multimedia broadcasting – terrestrial (DMB-T) adopt the time domain synchronization-orthogonal frequency division multiplexing (TDS-OFDM). Instead of cyclic prefix scheme in traditional CP-OFDM systems, PN sequence has been proposed for guard interval, system synchronization and channel estimation in DMB-T system. TDS-OFDM provides higher spectrum efficiency than CP-OFDM due to no pilot in the transmitted signal. OFDM systems are deeply affected by synchronization errors including timing offset, carrier frequency offset and sampling frequency offset, which cause inter-carrier-interference and inter-symbol-interference. Hence the synchronization system is essential in receiver. In this thesis, a whole synchronization scheme including symbol synchronization, carrier frequency synchronization and sampling frequency synchronization for DMB-T system is presented. Synchronization errors are estimated by frequency-scan, delay correlator and re-sampler based on the correlation and cyclic-extend architecture of PN sequence. In addition, Channel estimation and equalization are discussed. In time domain, channel estimation is based on the correlation between the received signals and the locally generated PN sequence. If the phase of PN sequence is known, channel can be estimated by time domain least-square. Finally, the architecture design of inner receiver is suitable for DMB-T system.