Abstract
The frequency response of conventional FIR digital differentiators (DD), using only integral delays, is poor towards the high frequency end, and becomes identically zero at w= pi . To overcome this problem, a half-sample delay, z/sup -1/2/, is used in the minimax relative error DDs. However, the order of such DDs grows exponentially when accuracies better than 99.0% are desired. The authors propose maximally linear DDs, using one half-sample delay, which can achieve a frequency response accuracy better than 99.9%, with attractively low orders for 0.5 pi <or=w<or= pi . Mathematical formulas have been derived for computing the coefficients for the design.<<ETX>>
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