Title :
Polyphase Decomposition for Tunable Band-Pass Sigma-Delta A/D Converters
Author :
Da Feng ; Maloberti, Franco ; Sai-Weng Sin ; Martins, Rui Paulo
Author_Institution :
State-Key Lab. of Analog & Mixed-Signal VLSI, Univ. of Macau, Macao, China
Abstract :
The use of the polyphase decomposition technique applied to the noise transfer function (NTF) of band-pass sigma-delta (BPΣΔ) modulators is introduced and theoretically analyzed. Schemes for a second-order and fourth-order band-pass noise shaping are discussed in detail. The method is usable for any order but the analog inaccuracy limits its application. It is shown that an extension to MASH configurations is possible. The method allows tunability of the centre frequency over a wide frequency range. Moreover, MASH schemes allow a rough-fine tuning with the rough tuning in the analog section followed by a fine digital adjustment. Simulation results verify the benefits and outline possible limits.
Keywords :
sigma-delta modulation; transfer functions; BPΣΔ modulators; MASH configurations; NTF; centre frequency; fourth-order band-pass noise shaping; noise transfer function; polyphase decomposition technique; rough-fine tuning; second-order band-pass noise shaping; tunable band-pass sigma-delta A/D converters; Band-pass filters; Frequency modulation; Quantization (signal); Resonant frequency; Sigma-delta modulation; Transfer functions; Tunable circuits and devices; Band-pass; noise transfer function; polyphase decomposition; sigma-delta modulators; tunability;
Journal_Title :
Emerging and Selected Topics in Circuits and Systems, IEEE Journal on
DOI :
10.1109/JETCAS.2015.2502158
