The paper analyzes the overall conversion error of a noisy analog-to-digital (A/D) converter affected by Gaussian noise at its input or generated within the A/D itself. It is shown that under mild conditions concerning the ratio between the input noise standard deviation and the quantization step, the overall conversion error can be modeled by a Gaussian random variable uncorrelated with the input sequence. The power of the global conversion error is evaluated in closed formulae together with its degree of variability. Numerical simulations support the proposed analysis
The performances of A/D converters are usually characterized in their granular region, by adopting a...
ABSTRACT: Digital communication performances are affected by noise. Amplitude Probability Distributi...
The assumptions for the conventional statistical noise analysis are discussed in detail. Also, pract...
The paper analyzes the overall conversion error of a noisy analog-to-digital (A/D) converter affecte...
The paper analyzes the overall conversion error of a noisy digitizer affected by Gaussian noise at i...
Abstract − This paper investigates the statistical properties of quantization noise. In particular, ...
Because of the widespread use of digital systems in radars, instrumentation, and communication syste...
This paper investigates the statistical properties of quantization noise. In particular, a theoretic...
Abstract—Uniform quantizers are often modeled as additive uncorrelated noise sources. This paper exp...
Abstract – The very fast development of sigma-delta analog-to-digital converters is evidently [1, 2]...
Abstract—The automation of fixed-point conversion requires fast methods to evaluate the numerical ac...
Abstract—Quantization plays an important role in many systems where analog-to-digital conversion and...
The analog to digital converter (ADC) samples a continuous analog signal and produces a stream of di...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
This paper deals with the amplitude estimation in the frequency domain of low-level sine waves, i.e....
The performances of A/D converters are usually characterized in their granular region, by adopting a...
ABSTRACT: Digital communication performances are affected by noise. Amplitude Probability Distributi...
The assumptions for the conventional statistical noise analysis are discussed in detail. Also, pract...
The paper analyzes the overall conversion error of a noisy analog-to-digital (A/D) converter affecte...
The paper analyzes the overall conversion error of a noisy digitizer affected by Gaussian noise at i...
Abstract − This paper investigates the statistical properties of quantization noise. In particular, ...
Because of the widespread use of digital systems in radars, instrumentation, and communication syste...
This paper investigates the statistical properties of quantization noise. In particular, a theoretic...
Abstract—Uniform quantizers are often modeled as additive uncorrelated noise sources. This paper exp...
Abstract – The very fast development of sigma-delta analog-to-digital converters is evidently [1, 2]...
Abstract—The automation of fixed-point conversion requires fast methods to evaluate the numerical ac...
Abstract—Quantization plays an important role in many systems where analog-to-digital conversion and...
The analog to digital converter (ADC) samples a continuous analog signal and produces a stream of di...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
This paper deals with the amplitude estimation in the frequency domain of low-level sine waves, i.e....
The performances of A/D converters are usually characterized in their granular region, by adopting a...
ABSTRACT: Digital communication performances are affected by noise. Amplitude Probability Distributi...
The assumptions for the conventional statistical noise analysis are discussed in detail. Also, pract...