| Oversampled delta-sigma modulation is one of the widely used A/D conversion techniques for narrow bandwidth signals. In this study several new lowpass and bandpass delta-sigma modulator architectures as well as novel pseudo-N-path integrators that can be used in implementing these architectures are proposed.;Bandpass delta-sigma modulators are useful for applications such as AM radio receivers, spectrum analyzers, and digital wireless systems. Using ;By using multiplexing techniques the new lowpass delta-sigma modulator architectures exchange higher clock rates with hardware complexity. For a given oversampling ratio (OSR), the multiplexed first-order delta-sigma modulator achieves a higher resolution. Guaranteed stability is a very desirable feature of these structures. The multi-loop delta-sigma modulator architecture similarly reduces the number of integrators needed to achieve high-resolution conversion for a given OSR. To ensure stability a quantizer with (N + 1) bits must be used, where N is the number of loops, or in other words, the order of the delta-sigma modulator. Digital correction or randomizing techniques can be used to eliminate the performance reduction due to digital-to-analog (D/A) convener nonlinearity error (59), (64). |