In this two-part paper, a design methodology for reduced-complexity digital delta-sigma modulators (DDSMs) based on error masking is presented. Rules for selecting the wordlengths of the stages in multistage architectures are elaborated. We show that the hardware requirement can be reduced by up to 20% compared with a conventional design, without sacrificing performance. Simulation results confirm theoretical predictions. Part I addresses multistage noise-shaping DDSMs, whereas Part II focuses on single-quantizer DDSMs. © 2009 IEEE
This paper discusses a bus-splitting technique for hardware reduction in error feedback digital delt...
In this chapter, we review the principles of delta-sigma modulation. We classify Delta-Sigma Modulat...
This paper presents a design methodology for dithered bus-splitting Multi stAge noise SHaping (MASH)...
In this two-part paper, a design methodology for reduced-complexity digital delta-sigma modulators (...
Two classes of techniques have been developed to whiten the quantization noise in digital delta-sigm...
In this two-part paper, a design methodology for reduced-complexity digital delta-sigma modulators (...
Two classes of techniques have been developed to whiten the quantization noise in digital delta-sigm...
An error masking technique has been developed which allows the hardware complexity of Multi stAge no...
Digital delta-sigma modulators (DDSMs) usually belong to one of two classes called Multi-stAge noise...
A reduced complexity (RC) digital Multi-stAge noise SHaping (MASH) delta-sigma modulator (DSM) was p...
In this two-part paper, a design methodology for hardware reduction in digital delta-sigma modulator...
In this two-part paper, a design methodology for bus-splitting digital delta-sigma modulators (DDSMs...
Abstract—In this two-part paper, a design methodology for hardware reduction in digital delta-sigma ...
Two classes of techniques have been developed to whiten the quantization noise in Digital Delta-Sigm...
Abstract—In this two-part paper, a design methodology for bus-splitting digital delta-sigma modulato...
This paper discusses a bus-splitting technique for hardware reduction in error feedback digital delt...
In this chapter, we review the principles of delta-sigma modulation. We classify Delta-Sigma Modulat...
This paper presents a design methodology for dithered bus-splitting Multi stAge noise SHaping (MASH)...
In this two-part paper, a design methodology for reduced-complexity digital delta-sigma modulators (...
Two classes of techniques have been developed to whiten the quantization noise in digital delta-sigm...
In this two-part paper, a design methodology for reduced-complexity digital delta-sigma modulators (...
Two classes of techniques have been developed to whiten the quantization noise in digital delta-sigm...
An error masking technique has been developed which allows the hardware complexity of Multi stAge no...
Digital delta-sigma modulators (DDSMs) usually belong to one of two classes called Multi-stAge noise...
A reduced complexity (RC) digital Multi-stAge noise SHaping (MASH) delta-sigma modulator (DSM) was p...
In this two-part paper, a design methodology for hardware reduction in digital delta-sigma modulator...
In this two-part paper, a design methodology for bus-splitting digital delta-sigma modulators (DDSMs...
Abstract—In this two-part paper, a design methodology for hardware reduction in digital delta-sigma ...
Two classes of techniques have been developed to whiten the quantization noise in Digital Delta-Sigm...
Abstract—In this two-part paper, a design methodology for bus-splitting digital delta-sigma modulato...
This paper discusses a bus-splitting technique for hardware reduction in error feedback digital delt...
In this chapter, we review the principles of delta-sigma modulation. We classify Delta-Sigma Modulat...
This paper presents a design methodology for dithered bus-splitting Multi stAge noise SHaping (MASH)...