Title :
DSP and ASIC implementation of a channel filter for a 3G UTRA-TDD system
Author :
Veljanovski, R. ; Singh, J. ; Faulkner, M.
Author_Institution :
Centre of Telecommun. & Microelectron., Victoria Univ., Melbourne, Vic., Australia
Abstract :
This paper describes the design, simulation and implementation of a high performance low power pulse-shaping FIR filter. The filter is for an UTRA-TDD transmitter. The pulse-shaping filter was implemented on a DSP and as an ASIC. A performance analysis and comparison using industry standard EDA tools was performed. A proposed reconfigurable pulse-shaping filter architecture for the receiver in the mobile terminal is also presented. This novel architecture can drastically reduce power dissipation dependant on adjacent channel interference. It automatically scales the number of filter coefficients by monitoring the in-band and out-of-band powers. This new filter performance was evaluated in a simulation UTRA-TDD environment because of the large near far problem caused by adjacent channel interference from adjacent mobiles and base stations.
Keywords :
3G mobile communication; FIR filters; adjacent channel interference; application specific integrated circuits; digital filters; digital signal processing chips; digital simulation; pulse shaping circuits; radio access networks; radiofrequency filters; reconfigurable architectures; 3G UTRA-TDD system; ASIC implementation; DSP implementation; UTRA-TDD transmitter; adjacent channel interference; base stations; channel filter; filter coefficients; filter performance evaluation; in-band power; industry standard EDA tools; low power pulse-shaping FIR filter; mobile terminal receiver; near far problem; out-of-band power; performance analysis; power dissipation reduction; programmable digital signal processor; reconfigurable pulse-shaping filter architecture; simulation UTRA-TDD environment; Application specific integrated circuits; Base stations; Computerized monitoring; Digital signal processing; Electronic design automation and methodology; Finite impulse response filter; Interchannel interference; Performance analysis; Power dissipation; Transmitters;
Conference_Titel :
Personal, Indoor and Mobile Radio Communications, 2002. The 13th IEEE International Symposium on
Print_ISBN :
0-7803-7589-0
DOI :
10.1109/PIMRC.2002.1045268
