In this study, the design and field-programmable gate array (FPGA) implementation of the digital notch filter with the latticewavedigitalfilter (LWDF) structure is presented. For reducing the initial signal transie...
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In this study, the design and field-programmable gate array (FPGA) implementation of the digital notch filter with the latticewavedigitalfilter (LWDF) structure is presented. For reducing the initial signal transient, the variable notch bandwidth filter is designed. During the initial samples, the notch filter has a wide bandwidth in order to diminish signal transient. As time moves forward, the notch bandwidth reduces to attain the possible minimum width. This results in minimised transient duration notch filter with a sufficiently high-quality factor. Previously, the IIR structure has been used for implementing the time varying bandwidth notch filter. Such a filter requires two variable coefficients for varying the notch width with time. The advantage of using a LWDF structure is that only one coefficient has variable values to vary the notch width with time. Therefore, the number of memory locations required to implement the proposed design is reduced by half. Moreover, the LWDF is less sensitive to the word-length effects. Thus, the proposed latticewavedigital notch filter (LWDNF) produces better results compared to the existing literature in terms of error analysis. The suggested LWDNF is then implemented on a field-programmable gate array using a Xilinx system generator for the DSP design suite.
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