Combining M analog-to-digital converters (ADC) in parallel increases the maximum signal-to-noise ratio (SNR) by a factor of M, assuming the noise is uncorrelated from one channel to the next. This allows for a significant increase in SNR over a single ADC; however, noise and harmonic correlation degrade this improvement. ADCs have three sources of noise: thermal (and other random physical processes), sampling, and quantization noise. There are two system components creating harmonics: the sampler and the quantizer. In this thesis, I determine, analytically and experimentally, the degree of correlation between signals, noise, and harmonics in a parallel ADC array. To test the analysis experimentally, I developed a 16-channel test-bed usi...
Graduation date: 2012Two aspects of ADC system performance are addressed in this work. First, the co...
Using several ADCs (Analog to Digital Converters) in parallel with convenient time offsets is consid...
Bibliography: p. 29.Army Signal Corps Contract no. DA36-039 sc-100, Project no. 8-102B-0. Dept. of t...
Many applications, including communications, test and measurement, and radar, require the generation...
Uniform quantizers are often modeled as additive uncorrelated noise sources. This paper explores the...
The analog to digital converter (ADC) samples a continuous analog signal and produces a stream of di...
The cross-correlation technique makes it possible to perform noise measurements with a sensitivity t...
We analyze the phase-noise measurement methods in which correlation and averaging is used to reject ...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
This is the second paper of a series describing theories and experiments of a new analysis technique...
The use of uniformly distributed auxiliary random noise in the polarity-coincidence correlator has b...
Low-area matched filter and correlator designs are explored in this thesis, for ADC resolutions of 1...
This paper describes a system for ultrasonic wave attenuation measurements which is based on pseudo-...
Background digital calibration techniques based on an output-referred error model are proposed to li...
peer-reviewedPrecision instruments using mixed signal devices such as analog to digital converters (...
Graduation date: 2012Two aspects of ADC system performance are addressed in this work. First, the co...
Using several ADCs (Analog to Digital Converters) in parallel with convenient time offsets is consid...
Bibliography: p. 29.Army Signal Corps Contract no. DA36-039 sc-100, Project no. 8-102B-0. Dept. of t...
Many applications, including communications, test and measurement, and radar, require the generation...
Uniform quantizers are often modeled as additive uncorrelated noise sources. This paper explores the...
The analog to digital converter (ADC) samples a continuous analog signal and produces a stream of di...
The cross-correlation technique makes it possible to perform noise measurements with a sensitivity t...
We analyze the phase-noise measurement methods in which correlation and averaging is used to reject ...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
This is the second paper of a series describing theories and experiments of a new analysis technique...
The use of uniformly distributed auxiliary random noise in the polarity-coincidence correlator has b...
Low-area matched filter and correlator designs are explored in this thesis, for ADC resolutions of 1...
This paper describes a system for ultrasonic wave attenuation measurements which is based on pseudo-...
Background digital calibration techniques based on an output-referred error model are proposed to li...
peer-reviewedPrecision instruments using mixed signal devices such as analog to digital converters (...
Graduation date: 2012Two aspects of ADC system performance are addressed in this work. First, the co...
Using several ADCs (Analog to Digital Converters) in parallel with convenient time offsets is consid...
Bibliography: p. 29.Army Signal Corps Contract no. DA36-039 sc-100, Project no. 8-102B-0. Dept. of t...