Abstract
The increasing demands for multi-media and wireless communication applications have had much impact on design of high-speed and low-power modern DSP systems. Orthogonal IIR digital filters can achieve sharp transition band and have good finite word-length behavior and are used in many modern DSP applications such as mobile communications. However, Cordic based fine-grain pipelined true orthogonal IIR digital filters have not been developed so far. In this paper, a state-space approach based novel algorithm for designing fine-grain pipelined true orthogonal IIR digital filters is proposed using the matrix lookahead technique. The algorithm only involves applying orthogonal transformations that are known to be numerically very reliable, and therefore is ideal for VLSI implementations. The proposed filter architecture can be operated at arbitrarily high sample rates and achieves linear increase in hardware complexity with respect to the filter order and pipelining level. It consists of only Givens rotations which can be mapped onto Cordic arithmetic based processors. Finally, an intermediate frequency filter for American mobile telephone system is designed using the proposed orthogonal filter synthesis algorithm.
Original language | English (US) |
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Pages | 417-426 |
Number of pages | 10 |
State | Published - Jan 1 1998 |
Event | Proceedings of the 1998 IEEE Workshop on Signal Processing Systems, SIPS - Cambridge, MA, USA Duration: Oct 8 1998 → Oct 10 1998 |
Other
Other | Proceedings of the 1998 IEEE Workshop on Signal Processing Systems, SIPS |
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City | Cambridge, MA, USA |
Period | 10/8/98 → 10/10/98 |