This paper deals with the implementation of the sample rate conversion subsystems of the digital front-end, at Intermediate Frequency (IF), and of a synchronization subsystem in the framework of a Software Radio receiving terminal. A recently proposed architecture is adopted and optimized for the realization of a multimodal terminal, the main operational mode of which is UMTS, but also capable to interface with GSM or IS-95. In particular, a class of multiplierless filters in conjunction with reduced complexity FIR filters is chosen for the rate conversion. The selected approach for synchronization is a modified MAX/TC algorithm that exploits dedicated sync channels, for the UMTS case. Its performance in terms of acquisition probability has been studied either in a classic AWGN channel or in a multipath environment. The algorithms have been optimized considering an FPGA based implementation, where power consumption and occupied area strongly constrain designer choices.
FPGA Implementation of a Multimodal Sample Rate Converter and Synchronizer
BARUFFA, Giuseppe;CACOPARDI, Saverio;
2002
Abstract
This paper deals with the implementation of the sample rate conversion subsystems of the digital front-end, at Intermediate Frequency (IF), and of a synchronization subsystem in the framework of a Software Radio receiving terminal. A recently proposed architecture is adopted and optimized for the realization of a multimodal terminal, the main operational mode of which is UMTS, but also capable to interface with GSM or IS-95. In particular, a class of multiplierless filters in conjunction with reduced complexity FIR filters is chosen for the rate conversion. The selected approach for synchronization is a modified MAX/TC algorithm that exploits dedicated sync channels, for the UMTS case. Its performance in terms of acquisition probability has been studied either in a classic AWGN channel or in a multipath environment. The algorithms have been optimized considering an FPGA based implementation, where power consumption and occupied area strongly constrain designer choices.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.