TY - GEN
T1 - Design, simulation and implementation of a channel equalizer for DVB-T on-channel repeaters
AU - Mendicute, Mikel
AU - Sobrón, Iker
AU - Ser, Javier Del
AU - Prieto, Pablo
AU - Isasi, Ricardo
PY - 2008
Y1 - 2008
N2 - This article describes the design and implementation of a channel equalizer for a terrestrial digital television (Digital Video Broadcasting-Terrestrial, DVB-T) on-channel repeater, namely gap-filler. Two are the benefits of including this equalizer in a repeater setup: on one hand, the transmitted signal requires a lower dynamic range and its degradation becomes smaller at the output amplifiers, thus allowing for a higher transmit power for the same modulation error rate (MER). On the other hand, it eases the equalization and decoding processes at the final receiver by improving its operation conditions. In this context, we present a novel low-cost equalizer architecture for mid-range and domestic gap-fillers. The design, implementation and validation methodology is also described, from the initial Matlab and Advanced Design System (ADS) simulations to the final hardware implementation, based on a field programmable gate array (FPGA) device and a Blackfin digital signal processor (DSP). The obtained practical results assess the performance gains predicted by simulation, hence proving the validity and efficacy of the designed equalizer to reduce the cost of the amplifiers and to obtain a better signal quality at the final user's receiver.
AB - This article describes the design and implementation of a channel equalizer for a terrestrial digital television (Digital Video Broadcasting-Terrestrial, DVB-T) on-channel repeater, namely gap-filler. Two are the benefits of including this equalizer in a repeater setup: on one hand, the transmitted signal requires a lower dynamic range and its degradation becomes smaller at the output amplifiers, thus allowing for a higher transmit power for the same modulation error rate (MER). On the other hand, it eases the equalization and decoding processes at the final receiver by improving its operation conditions. In this context, we present a novel low-cost equalizer architecture for mid-range and domestic gap-fillers. The design, implementation and validation methodology is also described, from the initial Matlab and Advanced Design System (ADS) simulations to the final hardware implementation, based on a field programmable gate array (FPGA) device and a Blackfin digital signal processor (DSP). The obtained practical results assess the performance gains predicted by simulation, hence proving the validity and efficacy of the designed equalizer to reduce the cost of the amplifiers and to obtain a better signal quality at the final user's receiver.
UR - http://www.scopus.com/inward/record.url?scp=58049221494&partnerID=8YFLogxK
U2 - 10.1109/ICSNC.2008.13
DO - 10.1109/ICSNC.2008.13
M3 - Conference contribution
AN - SCOPUS:58049221494
SN - 9780769533711
T3 - Proc. - The 3rd Int. Conf. Systems and Networks Communications, ICSNC 2008 - Includes I-CENTRIC 2008: Int. Conf. Advances in Human-Oriented and Personalized Mechanisms, Technologies, and Services
SP - 11
EP - 16
BT - Proc. - The 3rd Int. Conf. Systems and Networks Communications, ICSNC 2008 - Includes I-CENTRIC 2008
T2 - 3rd International Conference on Systems and Networks Communications, ICSNC 2008 - Includes I-CENTRIC 2008: International Conference on Advances in Human-Oriented and Personalized Mechanisms, Technologies, and Services
Y2 - 26 October 2008 through 31 October 2008
ER -